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1.  Variations of emotion dysregulation in borderline personality disorder: a latent profile analysis approach with adult psychiatric inpatients 
Background
The purpose of the present study was to identify variations in emotional dysregulation patterns among adults diagnosed with borderline personality disorder (BPD), with an eye toward implications for treatment.
Methods
Latent profile analysis (LPA) was utilized to classify 156 inpatients with BPD, based on patterns of Difficulties in Emotion Regulation Scale (DERS; Gratz and Roemer, J Psychopathol Behav Assess 26: 41-54, 2004) subscale scores.
Results
Results revealed that a three class solution best fit the sample (Low Impairment, Global Dysregulation, and Emotionally Aware). Further analysis of the classes at admission revealed that the Global Dysregulation group reported significantly higher suicidal ideation than either the Low Impairment or Emotionally Aware groups, and that the Global Dysregulation group reported significantly higher functional impairment than the Low Impairment group.
Conclusions
All three groups improved greatly over the course of hospital treatment, although they remained distinguishable at discharge, retaining their positions symptomatically relative to one another. Limitations, implications, and future directions are discussed.
Electronic supplementary material
The online version of this article (doi:10.1186/s40479-017-0068-2) contains supplementary material, which is available to authorized users.
doi:10.1186/s40479-017-0068-2
PMCID: PMC5569486
Borderline personality disorder; Latent profile analysis; Inpatient
2.  Developments in Time-Division Multiplexing of X-ray Transition-Edge Sensors 
Journal of low temperature physics  2015;184(1-2):389-395.
Time-division multiplexing (TDM) is a mature scheme for the readout of arrays of transition-edge sensors (TESs). TDM is based on superconducting-quantum-interference-device (SQUID) current amplifiers. Multiple spectrometers based on gamma-ray and X-ray microcalorimeters have been operated with TDM readout, each at the scale of 200 sensors per spectrometer, as have several astronomical cameras with thousands of sub-mm or microwave bolometers. Here we present the details of two different versions of our TDM system designed to read out X-ray TESs. The first has been field-deployed in two 160-sensor (8 columns × 20 rows) spectrometers and four 240-sensor (8 columns × 30 rows) spectrometers. It has a three-SQUID-stage architecture, switches rows every 320 ns, and has total readout noise of 0.41 μΦ0/√Hz. The second, which is presently under development, has a two-SQUID-stage architecture, switches rows every 160 ns, and has total readout noise of 0.19 μΦ0/√Hz. Both quoted noise values are non-multiplexed and referred to the first-stage SQUID. In a demonstration of this new architecture, a multiplexed 1-column × 32-row array of NIST TESs achieved average energy resolution of 2.55±0.01 eV at 6 keV.
doi:10.1007/s10909-015-1373-z
PMCID: PMC4912049  PMID: 27325902
SQUID; transition-edge sensor; time-division multiplexer; microcalorimeter; X-ray
3.  A loss of host-derived MMP-7 promotes myeloma growth and osteolytic bone disease in vivo 
Molecular Cancer  2017;16:49.
Matrix metalloproteinases (MMPs) play a critical role in cancer pathogenesis, including tumor growth and osteolysis within the bone marrow microenvironment. However, the anti-tumor effects of MMPs are poorly understood, yet have significant implications for the therapeutic potential of targeting MMPs. Host derived MMP-7 has previously been shown to support the growth of bone metastatic breast and prostate cancer. In contrast and underscoring the complexity of MMP biology, here we identified a tumor-suppressive role for host MMP-7 in the progression of multiple myeloma in vivo. An increase in tumor burden and osteolytic bone disease was observed in myeloma-bearing MMP-7 deficient mice, as compared to wild-type controls. We observed that systemic MMP-7 activity was reduced in tumor-bearing mice and, in patients with multiple myeloma this reduced activity was concomitant with increased levels of the endogenous MMP inhibitor, tissue inhibitor of metalloproteinases-1 (TIMP-1). Our studies have identified an unexpected tumour-suppressive role for host-derived MMP-7 in myeloma bone disease in vivo, and highlight the importance of elucidating the effect of individual MMPs in a disease-specific context.
doi:10.1186/s12943-017-0616-9
PMCID: PMC5330156  PMID: 28241871
Multiple myeloma; Bone; MMP-7; Osteoclast; Microenvironment; Bone disease; Mouse model
4.  A phase 2, randomized, double-blind, placebo- controlled study of chemo-immunotherapy combination using motolimod with pegylated liposomal doxorubicin in recurrent or persistent ovarian cancer: a Gynecologic Oncology Group partners study 
Annals of Oncology  2017;28(5):996-1004.
Background
A phase 2, randomized, placebo-controlled trial was conducted in women with recurrent epithelial ovarian carcinoma to evaluate the efficacy and safety of motolimod—a Toll-like receptor 8 (TLR8) agonist that stimulates robust innate immune responses—combined with pegylated liposomal doxorubicin (PLD), a chemotherapeutic that induces immunogenic cell death.
Patients and methods
Women with ovarian, fallopian tube, or primary peritoneal carcinoma were randomized 1 : 1 to receive PLD in combination with blinded motolimod or placebo. Randomization was stratified by platinum-free interval (≤6 versus >6–12 months) and Gynecologic Oncology Group (GOG) performance status (0 versus 1). Treatment cycles were repeated every 28 days until disease progression.
Results
The addition of motolimod to PLD did not significantly improve overall survival (OS; log rank one-sided P = 0.923, HR = 1.22) or progression-free survival (PFS; log rank one-sided P = 0.943, HR = 1.21). The combination was well tolerated, with no synergistic or unexpected serious toxicity. Most patients experienced adverse events of fatigue, anemia, nausea, decreased white blood cells, and constipation. In pre-specified subgroup analyses, motolimod-treated patients who experienced injection site reactions (ISR) had a lower risk of death compared with those who did not experience ISR. Additionally, pre-treatment in vitro responses of immune biomarkers to TLR8 stimulation predicted OS outcomes in patients receiving motolimod on study. Immune score (tumor infiltrating lymphocytes; TIL), TLR8 single-nucleotide polymorphisms, mutational status in BRCA and other DNA repair genes, and autoantibody biomarkers did not correlate with OS or PFS.
Conclusions
The addition of motolimod to PLD did not improve clinical outcomes compared with placebo. However, subset analyses identified statistically significant differences in the OS of motolimod-treated patients on the basis of ISR and in vitro immune responses. Collectively, these data may provide important clues for identifying patients for treatment with immunomodulatory agents in novel combinations and/or delivery approaches.
Trial registration
Clinicaltrials.gov, NCT 01666444.
doi:10.1093/annonc/mdx049
PMCID: PMC5406764  PMID: 28327944
Toll-like receptor 8; oncology; ovarian cancer; biomarkers; immunotherapy; motolimod
5.  The high frequency relationship: implications for torsadogenic hERG blockers 
British Journal of Pharmacology  2016;173(3):601-612.
Background and Purpose
Ventricular arrhythmias induced by human ether‐a‐go‐go related gene (hERG; Kv11.1 channel) blockers are a consequence of alterations in ventricular repolarisation in association with high‐frequency (HF) oscillations, which act as a primary trigger; the autonomic nervous system plays a modulatory role. In the present study, we investigated the role of β1‐adrenoceptors in the HF relationship between magnitude of heart rate and QT interval changes within discrete 10 s intervals (sorted into 5 bpm heart rate increments) and its implications for torsadogenic hERG blockers.
Experimental Approach
The HF relationship was studied under conditions of autonomic blockade with atenolol (β1‐adrenoceptor blocker) in the absence or presence of five hERG blockers in beagle dogs. In total, the effects of 14 hERG blockers on the HF relationship were investigated.
Key Results
All the torsadogenic hERG blockers tested caused a vertical shift in the HF relationship, while hERG blockers associated with a low risk of Torsades de Pointes did not cause any vertical shift. Atenolol completely prevented the effects four torsadogenic agents (quinidine, thioridazine, risperidone and terfenadine) on the HF relationship, but only partially reduced those of dofetilide, leading to the characterization of two types of torsadogenic agent.
Conclusions and Implications
Analysis of the vertical shift in the HF relationship demonstrated that signs of transient sympathetic activation during HF oscillations in the presence of torsadogenic hERG blockers are mediated by β1‐adrenoceptors. We suggest the HF relationship as a new biomarker for assessing Torsades de pointes liability, with potential implications in both preclinical studies and the clinic.
doi:10.1111/bph.13391
PMCID: PMC4728413  PMID: 26589499
6.  Utilisation of supplemented l-carnitine for fuel efficiency, as an antioxidant, and for muscle recovery in Labrador retrievers 
The primary goal was to investigate the effects of l-carnitine on fuel efficiency, as an antioxidant, and for muscle recovery in Labrador retrievers. Dogs were split into two groups, with one group being supplemented with 250 mg/d of Carniking™ l-carnitine powder. Two experiments (Expt 1 and Expt 2) were performed over a 2-year period which included running programmes, activity monitoring, body composition scans and evaluation of recovery using biomarkers. Each experiment differed slightly in dog number and design: fifty-six v. forty dogs; one endurance and two sprint runs per week v. two endurance runs; and differing blood collection time points. All dogs were fed a low-carnitine diet in which a fixed amount was offered based on maintaining the minimum starting weight. Results from Expt 1 found that the carnitine dogs produced approximately 4000 more activity points per km compared with the control group during sprint (P = 0·052) and endurance runs (P = 0·0001). Male carnitine dogs produced half the creatine phosphokinase (CPK) following exercise compared with male control dogs (P = 0·05). Carnitine dogs had lower myoglobin at 6·69 ng/ml following intensive exercise compared with controls at 24·02 ng/ml (P = 0·0295). Total antioxidant capacity (TAC) and thiobarbituric acid reactive substance (TBARS) results were not considered significant. In Expt 2, body composition scans indicated that the carnitine group gained more total tissue mass while controls lost tissue mass (P = 0·0006) and also gained lean mass while the control group lost lean mass (P < 0·0001). Carnitine dogs had lower CPK secretion at 23·06 v. control at 28·37 mU/ml 24 h after post-run (P = 0·003). Myoglobin levels were lower in carnitine v. control dogs both 1 h post-run (P = 0·0157; 23·83 v. 37·91 ng/ml) and 24 h post-run (P = 0·0189; 6·25 v.13·5 ng/ml). TAC indicated more antioxidant activity in carnitine dogs at 0·16 mm v. control at 0·13 mm (P = 0·0496). TBARS were also significantly lower in carnitine dogs both pre-run (P = 0·0013; 15·36 v. 23·42 µm) and 1 h post-run (P = 0·056; 16·45 v. 20·65 µm). Supplementing l-carnitine in the form of Carniking™ had positive benefits in Labrador retrievers for activity intensity, body composition, muscle recovery and oxidative capacity.
doi:10.1017/jns.2017.4
PMCID: PMC5465856
l-Carnitine; Canine performance; Dog nutrition; Muscle recovery; Antioxidants; Fuel efficiency; Labrador retrievers; APKm, activity points per km; CPK, creatine phosphokinase; LM, lean mass; ME, metabolisable energy; TAC, total antioxidant capacity; TBARS, thiobarbituric acid reactive substances
7.  Short-term variability in QT interval and ventricular arrhythmias induced by dofetilide are dependent on high-frequency autonomic oscillations 
British Journal of Pharmacology  2015;172(11):2878-2891.
Background and Purpose
The present study was undertaken to investigate an effect of dofetilide, a potent arrhythmic blocker of the voltage-gated K+ channel, hERG, on cardiac autonomic control. Combined with effects on ardiomyocytes, these properties could influence its arrhythmic potency.
Experimental Approach
The short-term variability of beat-to-beat QT interval (STVQT), induced by dofetilide is a strong surrogate of Torsades de pointes liability. Involvement of autonomic modulation in STVQT was investigated in healthy cynomolgus monkeys and beagle dogs by power spectral analysis under conditions of autonomic blockade with hexamethonium.
Key Results
Increase in STVQT induced by dofetilide in monkeys and dogs was closely associated with an enhancement of endogenous heart rate and QT interval high-frequency (HF) oscillations. These effects were fully suppressed under conditions of autonomic blockade with hexamethonium. Ventricular arrhythmias, including Torsades de pointes in monkeys, were prevented in both species when HF oscillations were suppressed by autonomic blockade. Similar enhancements of heart rate HF oscillations were found in dogs with other hERG blockers described as causing Torsades de pointes in humans.
Conclusions and Implications
These results demonstrate for the first time that beat-to-beat ventricular repolarization variability and ventricular arrhythmias induced by dofetilide are dependent on endogenous HF autonomic oscillations in heart rate. When combined with evidence of hERG-blocking properties, enhancement of endogenous HF oscillations in heart rate could constitute an earlier and more sensitive biomarker than STVQT for Torsades de pointes liability, applicable to preclinical regulatory studies conducted in healthy animals.
doi:10.1111/bph.13093
PMCID: PMC4439882  PMID: 25625756
8.  Short-term variability in QT interval and ventricular arrhythmias induced by dofetilide are dependent on high-frequency autonomic oscillations 
British Journal of Pharmacology  2015;172(11):2878-2891.
Background and Purpose
The present study was undertaken to investigate an effect of dofetilide, a potent arrhythmic blocker of the voltage-gated K+ channel, hERG, on cardiac autonomic control. Combined with effects on ardiomyocytes, these properties could influence its arrhythmic potency.
Experimental Approach
The short-term variability of beat-to-beat QT interval (STVQT), induced by dofetilide is a strong surrogate of Torsades de pointes liability. Involvement of autonomic modulation in STVQT was investigated in healthy cynomolgus monkeys and beagle dogs by power spectral analysis under conditions of autonomic blockade with hexamethonium.
Key Results
Increase in STVQT induced by dofetilide in monkeys and dogs was closely associated with an enhancement of endogenous heart rate and QT interval high-frequency (HF) oscillations. These effects were fully suppressed under conditions of autonomic blockade with hexamethonium. Ventricular arrhythmias, including Torsades de pointes in monkeys, were prevented in both species when HF oscillations were suppressed by autonomic blockade. Similar enhancements of heart rate HF oscillations were found in dogs with other hERG blockers described as causing Torsades de pointes in humans.
Conclusions and Implications
These results demonstrate for the first time that beat-to-beat ventricular repolarization variability and ventricular arrhythmias induced by dofetilide are dependent on endogenous HF autonomic oscillations in heart rate. When combined with evidence of hERG-blocking properties, enhancement of endogenous HF oscillations in heart rate could constitute an earlier and more sensitive biomarker than STVQT for Torsades de pointes liability, applicable to preclinical regulatory studies conducted in healthy animals.
doi:10.1111/bph.13093
PMCID: PMC4439882  PMID: 25625756
9.  Perceptions about e-cigarette safety may lead to e-smoking during pregnancy 
Bulletin of the Menninger Clinic  2014;78(3):243-252.
Electronic cigarettes (e-cigarettes) are nicotine-delivery devices that are increasingly used, especially by young people. Because e-cigarettes lack many of the substances found in regular tobacco, they are often perceived as a safer smoking alternative, especially in high-risk situations such as pregnancy. However, studies suggest that it is exposure to nicotine that is most detrimental to prenatal development. The authors studied perceptions of tobacco and e-cigarette health risks using a multiple-choice survey. To study the perceived safety of e-cigarettes versus tobacco cigarettes, 184 modified Global Health Youth Surveys (WHO, http://www.who.int/tobacco/surveillance/gyts/en/) were completed electronically or on paper. Age range, smoking status, and perceptions about tobacco cigarettes and e-cigarettes were studied. The results verified that younger people use e-cigarettes more than older people. Tobacco cigarettes were perceived as more harmful than e-cigarettes to health in general, including lung cancer and pregnancy. Although more research is necessary, the authors postulate that the perception that e-cigarettes are safer during pregnancy may induce pregnant women to use these devices more freely. Given that nicotine is known to cause fetal harm, pregnant mothers who smoke e-cigarettes could cause even greater harm to the fetus because e-cigarettes are perceived as being safer than tobacco cigarettes. Until more data about the effects of nicotine during pregnancy are available, the authors advocate for labeling of e-cigarettes as potentially harmful, at least during pregnancy.
doi:10.1521/bumc.2014.78.3.243
PMCID: PMC4458373  PMID: 25247743
10.  Time-dependent changes in nicotine behavioral responsivity during early withdrawal from chronic cocaine administration and attenuation of cocaine sensitization by mecamylamine 
Behavioural brain research  2014;262:42-46.
Cocaine abuse is associated with a high prevalence of nicotine dependence. In animals, nicotinic antagonists have been reported to block the development of cocaine behavioral sensitization and to attenuate cocaine place preference or self-administration. In the present study, we have determined: (1) changes in the locomotor responses to nicotine challenge during the first week of withdrawal from daily cocaine pretreatment; and (2) effects of the non-selective nicotinic acetylcholine receptor (nAChR) antagonist mecamylamine given during the first 5 days of cocaine withdrawal on maintenance of cocaine behavioral sensitization. Male Sprague-Dawley rats were pretreated with daily saline (SI) or cocaine (CI) injections for 14 days. In Experiment 1, separate animals in the SI and CI groups received a single nicotine challenge on day 1, 3, or 7 of withdrawal from their respective pretreatments. The CI group displayed enhanced locomotor responses to nicotine as compared to SI controls on days 3 and 7 of withdrawal, but not day 1. In Experiment 2, SI and CI animals were treated once a day with either saline or mecamylamine during the first 5 days of withdrawal, and were subsequently challenged with single cocaine injections on both withdrawal days 7 and 14. Mecamylamine treatment significantly attenuated expression of cocaine behavioral sensitization on both withdrawal days 7 and 14. Time-dependent changes in nicotinic responses occur during the first week of cocaine withdrawal, and intact nAChR neurotransmission during this period may be necessary for maintenance of cocaine behavioral sensitization.
doi:10.1016/j.bbr.2013.12.051
PMCID: PMC4024463  PMID: 24412684
cocaine abuse; cocaine sensitization; cocaine withdrawal period; mecamylamine; nicotinic antagonist
11.  Caffeine increases striatal dopamine D2/D3 receptor availability in the human brain 
Translational Psychiatry  2015;5(4):e549-.
Caffeine, the most widely consumed psychoactive substance in the world, is used to promote wakefulness and enhance alertness. Like other wake-promoting drugs (stimulants and modafinil), caffeine enhances dopamine (DA) signaling in the brain, which it does predominantly by antagonizing adenosine A2A receptors (A2AR). However, it is unclear if caffeine, at the doses consumed by humans, increases DA release or whether it modulates the functions of postsynaptic DA receptors through its interaction with adenosine receptors, which modulate them. We used positron emission tomography and [11C]raclopride (DA D2/D3 receptor radioligand sensitive to endogenous DA) to assess if caffeine increased DA release in striatum in 20 healthy controls. Caffeine (300 mg p.o.) significantly increased the availability of D2/D3 receptors in putamen and ventral striatum, but not in caudate, when compared with placebo. In addition, caffeine-induced increases in D2/D3 receptor availability in the ventral striatum were associated with caffeine-induced increases in alertness. Our findings indicate that in the human brain, caffeine, at doses typically consumed, increases the availability of DA D2/D3 receptors, which indicates that caffeine does not increase DA in the striatum for this would have decreased D2/D3 receptor availability. Instead, we interpret our findings to reflect an increase in D2/D3 receptor levels in striatum with caffeine (or changes in affinity). The association between increases in D2/D3 receptor availability in ventral striatum and alertness suggests that caffeine might enhance arousal, in part, by upregulating D2/D3 receptors.
doi:10.1038/tp.2015.46
PMCID: PMC4462609  PMID: 25871974
13.  HOLMES 
The European Research Council has recently funded HOLMES, a new experiment to directly measure the neutrino mass. HOLMES will perform a calorimetric measurement of the energy released in the decay of \documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$^{163}$$\end{document}163Ho. The calorimetric measurement eliminates systematic uncertainties arising from the use of external beta sources, as in experiments with beta spectrometers. This measurement was proposed in 1982 by A. De Rujula and M. Lusignoli, but only recently the detector technological progress allowed to design a sensitive experiment. HOLMES will deploy a large array of low temperature microcalorimeters with implanted \documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$^{163}$$\end{document}163Ho nuclei. The resulting mass sensitivity will be as low as 0.4 eV. HOLMES will be an important step forward in the direct neutrino mass measurement with a calorimetric approach as an alternative to spectrometry. It will also establish the potential of this approach to extend the sensitivity down to 0.1 eV. We outline here the project with its technical challenges and perspectives.
doi:10.1140/epjc/s10052-015-3329-5
PMCID: PMC4423878  PMID: 25995704
14.  Modeling Trajectory of Depressive Symptoms Among Psychiatric Inpatients: A Latent Growth Curve Approach 
Objectives
Changes in the parameters of inpatient psychiatric care have inspired a sizable literature exploring correlates of prolonged intervention as well as symptom change over varying lengths of hospitalization. However, existing data offer limited insight regarding the nature of symptom change over time. Objectives of this longitudinal research were to (a) model the trajectory of depressive symptoms within an inpatient psychiatric sample, (b) identify characteristics associated with unique patterns of change, and (c) evaluate the magnitude of expected gains using objective clinical benchmarks.
Methods
Participants included psychiatric inpatients treated between April 2008 and December 2010. Latent growth curve modeling was used to determine the trajectory of Beck Depression Inventory II depressive symptoms in response to treatment. Age, gender, trauma history, prior hospitalization, and DSM-IV diagnoses were examined as potential moderators of recovery.
Results
Results indicate a nonlinear model of recovery, with symptom reductions greatest following admission and slowing gradually over time. Female gender, probable trauma exposure, prior psychiatric hospitalization, and primary depressive diagnosis were associated with more severe trajectories. Diagnosis of alcohol/substance use, by contrast, was associated with more moderate trajectories. Objective benchmarks occurred relatively consistently across patient groups with clinically significant change occurring between 2–4 weeks post-admission.
Conclusion
The nonlinear trajectory of recovery observed in these data provides insight regarding the dynamics of inpatient recovery. Across all patient groups, symptom reduction was most dramatic in the initial week of hospitalization. However, notable improvement continued for several weeks post-admission. Results suggest timelines for adequate inpatient care are largely contingent on program-specific goals.
doi:10.4088/JCP.12m07842
PMCID: PMC4313384  PMID: 23759452
inpatient treatment; psychiatric hospitalization; depression; symptom trajectory; latent growth curve modeling
15.  Consistency and coherence in treatment outcome measures for borderline personality disorder 
There is little consensus regarding outcomes assessment in borderline personality disorder treatment trials, making comparisons of results and meta-analytic studies difficult and far less generalizable. The current article highlights a range of measures frequently employed and puts forth a set of recommendations for a core battery of outcome measures in BPD treatment efforts. The proposed core battery aims to be comprehensive while minimizing patient burden, clinician time and costs. The relative brevity of the proposed core battery would engender flexibility for adding specific processes and outcome measures unique to targeted interventions and treatment models.
doi:10.1186/s40479-014-0022-5
PMCID: PMC4579515  PMID: 26401304
Borderline personality disorder; Outcomes assessment; Treatment effectiveness
16.  Design and Implementation of a Randomized Controlled Social and Mobile Weight Loss Trial for Young Adults (project SMART) 
Contemporary clinical trials  2013;37(1):10-18.
Purpose
To describe the theoretical rationale, intervention design, and clinical trial of a two-year weight control intervention for young adults deployed via social and mobile media.
Methods
A total of 404 overweight or obese college students from three Southern California universities (Mage = 22(±4) years; MBMI=29(±2.8); 70% female) were randomized to participate in the intervention or to receive an informational web-based weight loss program. The intervention is based on behavioral theory and integrates intervention elements across multiple touch points, including Facebook, SMS, smartphone applications, blogs, and e-mail. Participants are encouraged to seek social support among their friends, self-monitor their weight weekly, post their health behaviors on Facebook, and e-mail their weight loss questions/concerns to a health coach. The intervention is adaptive because new theory-driven and iteratively tailored intervention elements are developed and released over the course of the two-year intervention in response to patterns of use and user feedback. Measures of body mass index, waist circumference, physical activity (PA), sedentary behavior (SED), diet, weight management practices, smoking, alcohol, sleep, body image, self-esteem, and depression occur at 6, 12, 18, and 24 months. Currently, all participants have been recruited, and all are in the final year of the trial.
Conclusion
Theory-driven, evidence-based strategies for PA, SED, and dietary intake can be embedded in an intervention using social and mobile technologies to promote healthy weight-related behaviors in young adults.
doi:10.1016/j.cct.2013.11.001
PMCID: PMC3910290  PMID: 24215774
weight loss; social support; young adult; Internet; health promotion; obesity
17.  Interpersonal Change Following Intensive Inpatient Treatment 
Psychiatry  2014;77(3):247-262.
Objective:
Persons admitted for inpatient psychiatric care often present with interpersonal difficulties that disrupt adaptive social relations and complicate the provision of treatment. Whereas domains of psychosocial functioning in this population demonstrate clear growth in response to intervention, the impact of treatment on more complex patterns of interpersonal behavior has been largely overlooked within the existing literature. Interpersonal profiles characteristic of psychiatric inpatients were identified in the current study to determine rates of transition to adaptive functioning following hospitalization.
Methods:
Personality disturbance was assessed in 513 psychiatric inpatients using the Inventory of Interpersonal Problems. Scores were analyzed within a series of latent profile models to isolate unique interpersonal profiles at admission and at discharge. Longitudinal modeling was then employed to determine rates of transition from dysfunctional to adaptive profiles. Relationships with background characteristics, clinical presentation, and treatment response were explored.
Results:
Normative, Submissive, and Hostile/Withdrawn profiles emerged at both admission and discharge. Patients in the Normative profile demonstrated relatively moderate symptoms. Submissive and Hostile/Withdrawn profiles were related to known risk factors and elevated psychopathology. Approximately half of patients identified as Submissive or Hostile/Withdrawn transitioned to the Normative profile by discharge. Transition status evidenced modest associations with background characteristics and clinical presentation. Treatment engagement and reduction of clinical symptoms were strongly associated with adaptive transition.
Conclusion:
Maladaptive interpersonal profiles characteristic of psychiatric inpatients demonstrated categorical change following inpatient hospitalization. Enhanced therapeutic engagement and overall reductions in psychiatric symptoms appear to increase potential for interpersonal change.
doi:10.1521/psyc.2014.77.3.247
PMCID: PMC4267225  PMID: 25162133
18.  Intensive inpatient treatment improves emotion-regulation capacities among adults with severe mental illness 
Background
Impaired capacity for emotion regulation is associated with a broad spectrum of psychiatric disturbances; however, little is known about treatment response in emotion regulation functioning among patients with severe mental illness. This study examined treatment response and the role that experiential avoidance plays in mediating the relationship between attachment anxiety/avoidance and change in emotion regulation.
Methods
Difficulties in emotion regulation were assessed at admission and at discharge, and rates of improvement and deterioration in emotion regulation were calculated. Attachment anxiety and avoidance were assessed in conjunction with experiential avoidance at baseline in a large cohort (N = 493) of adults admitted to a specialized adult psychiatric hospital.
Results
Inpatient treatment was associated with clinically significant improvement in emotion-regulation capacities for 49 percent of patients completing at least four weeks of treatment. Fifty-six percent of patients attained a status of recovery. Greater attachment avoidance and anxiety were related to positive change in emotion regulation at discharge. Experiential avoidance fully mediated the relationship between insecure attachment and change in emotion-regulation capacities.
Conclusions
Contrary to expectation, greater attachment insecurity (anxiety and avoidance) as well as greater experiential avoidance predicted improvement in emotion regulation. These counterintuitive findings add to a growing evidence base indicating that severity of psychopathology is associated with greater improvement in hospitalized patients. Results of the mediation analysis suggest that targeting experiential avoidance may be an effective augmentation in the treatment of impaired emotion regulation functioning.
doi:10.1186/2051-6673-1-19
PMCID: PMC4579521  PMID: 26401302
Attachment Insecurity; Experiential Avoidance; Emotion Regulation; Treatment Response
19.  The differential production cross section of the \documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$\phi $$\end{document}ϕ(1020) meson in \documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$\sqrt{s}$$\end{document}s = 7 TeV \documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$pp$$\end{document}pp collisions measured with the ATLAS detector 
Aad, G. | Abajyan, T. | Abbott, B. | Abdallah, J. | Abdel Khalek, S. | Abdelalim, A. A. | Abdinov, O. | Aben, R. | Abi, B. | Abolins, M. | AbouZeid, O. S. | Abramowicz, H. | Abreu, H. | Acharya, B. S. | Adamczyk, L. | Adams, D. L. | Addy, T. N. | Adelman, J. | Adomeit, S. | Adragna, P. | Adye, T. | Aefsky, S. | Aguilar-Saavedra, J. A. | Agustoni, M. | Aharrouche, M. | Ahlen, S. P. | Ahles, F. | Ahmad, A. | Ahsan, M. | Aielli, G. | Åkesson, T. P. A. | Akimoto, G. | Akimov, A. V. | Alam, M. S. | Alam, M. A. | Albert, J. | Albrand, S. | Aleksa, M. | Aleksandrov, I. N. | Alessandria, F. | Alexa, C. | Alexander, G. | Alexandre, G. | Alexopoulos, T. | Alhroob, M. | Aliev, M. | Alimonti, G. | Alison, J. | Allbrooke, B. M. M. | Allport, P. P. | Allwood-Spiers, S. E. | Almond, J. | Aloisio, A. | Alon, R. | Alonso, A. | Alonso, F. | Altheimer, A. | Alvarez Gonzalez, B. | Alviggi, M. G. | Amako, K. | Amelung, C. | Ammosov, V. V. | Amor Dos Santos, S. P. | Amorim, A. | Amram, N. | Anastopoulos, C. | Ancu, L. S. | Andari, N. | Andeen, T. | Anders, C. F. | Anders, G. | Anderson, K. J. | Andreazza, A. | Andrei, V. | Andrieux, M. -L. | Anduaga, X. S. | Angelidakis, S. | Anger, P. | Angerami, A. | Anghinolfi, F. | Anisenkov, A. | Anjos, N. | Annovi, A. | Antonaki, A. | Antonelli, M. | Antonov, A. | Antos, J. | Anulli, F. | Aoki, M. | Aoun, S. | Aperio Bella, L. | Apolle, R. | Arabidze, G. | Aracena, I. | Arai, Y. | Arce, A. T. H. | Arfaoui, S. | Arguin, J. -F. | Argyropoulos, S. | Arik, E. | Arik, M. | Armbruster, A. J. | Arnaez, O. | Arnal, V. | Arnault, C. | Artamonov, A. | Artoni, G. | Arutinov, D. | Asai, S. | Ask, S. | Åsman, B. | Asquith, L. | Assamagan, K. | Astbury, A. | Atkinson, M. | Aubert, B. | Auge, E. | Augsten, K. | Aurousseau, M. | Avolio, G. | Avramidou, R. | Axen, D. | Azuelos, G. | Azuma, Y. | Baak, M. A. | Baccaglioni, G. | Bacci, C. | Bach, A. M. | Bachacou, H. | Bachas, K. | Backes, M. | Backhaus, M. | Backus Mayes, J. | Badescu, E. | Bagnaia, P. | Bahinipati, S. | Bai, Y. | Bailey, D. C. | Bain, T. | Baines, J. T. | Baker, O. K. | Baker, M. D. | Baker, S. | Balek, P. | Banas, E. | Banerjee, P. | Banerjee, Sw. | Banfi, D. | Bangert, A. | Bansal, V. | Bansil, H. S. | Barak, L. | Baranov, S. P. | Barbaro Galtieri, A. | Barber, T. | Barberio, E. L. | Barberis, D. | Barbero, M. | Bardin, D. Y. | Barillari, T. | Barisonzi, M. | Barklow, T. | Barlow, N. | Barnett, B. M. | Barnett, R. M. | Baroncelli, A. | Barone, G. | Barr, A. J. | Barreiro, F. | Barreiro Guimarães da Costa, J. | Barrillon, P. | Bartoldus, R. | Barton, A. E. | Bartsch, V. | Basye, A. | Bates, R. L. | Batkova, L. | Batley, J. R. | Battaglia, A. | Battistin, M. | Bauer, F. | Bawa, H. S. | Beale, S. | Beau, T. | Beauchemin, P. H. | Beccherle, R. | Bechtle, P. | Beck, H. P. | Becker, A. K. | Becker, S. | Beckingham, M. | Becks, K. H. | Beddall, A. J. | Beddall, A. | Bedikian, S. | Bednyakov, V. A. | Bee, C. P. | Beemster, L. J. | Begel, M. | Behar Harpaz, S. | Behera, P. K. | Beimforde, M. | Belanger-Champagne, C. | Bell, P. J. | Bell, W. H. | Bella, G. | Bellagamba, L. | Bellomo, M. | Belloni, A. | Beloborodova, O. | Belotskiy, K. | Beltramello, O. | Benary, O. | Benchekroun, D. | Bendtz, K. | Benekos, N. | Benhammou, Y. | Benhar Noccioli, E. | Benitez Garcia, J. A. | Benjamin, D. P. | Benoit, M. | Bensinger, J. R. | Benslama, K. | Bentvelsen, S. | Berge, D. | Bergeaas Kuutmann, E. | Berger, N. | Berghaus, F. | Berglund, E. | Beringer, J. | Bernat, P. | Bernhard, R. | Bernius, C. | Berry, T. | Bertella, C. | Bertin, A. | Bertolucci, F. | Besana, M. I. | Besjes, G. J. | Besson, N. | Bethke, S. | Bhimji, W. | Bianchi, R. M. | Bianchini, L. | Bianco, M. | Biebel, O. | Bieniek, S. P. | Bierwagen, K. | Biesiada, J. | Biglietti, M. | Bilokon, H. | Bindi, M. | Binet, S. | Bingul, A. | Bini, C. | Biscarat, C. | Bittner, B. | Black, C. W. | Black, K. M. | Blair, R. E. | Blanchard, J. -B. | Blanchot, G. | Blazek, T. | Bloch, I. | Blocker, C. | Blocki, J. | Blondel, A. | Blum, W. | Blumenschein, U. | Bobbink, G. J. | Bobrovnikov, V. B. | Bocchetta, S. S. | Bocci, A. | Boddy, C. R. | Boehler, M. | Boek, J. | Boelaert, N. | Bogaerts, J. A. | Bogdanchikov, A. | Bogouch, A. | Bohm, C. | Bohm, J. | Boisvert, V. | Bold, T. | Boldea, V. | Bolnet, N. M. | Bomben, M. | Bona, M. | Boonekamp, M. | Bordoni, S. | Borer, C. | Borisov, A. | Borissov, G. | Borjanovic, I. | Borri, M. | Borroni, S. | Bortfeldt, J. | Bortolotto, V. | Bos, K. | Boscherini, D. | Bosman, M. | Boterenbrood, H. | Bouchami, J. | Boudreau, J. | Bouhova-Thacker, E. V. | Boumediene, D. | Bourdarios, C. | Bousson, N. | Boveia, A. | Boyd, J. | Boyko, I. R. | Bozovic-Jelisavcic, I. | Bracinik, J. | Branchini, P. | Brandt, A. | Brandt, G. | Brandt, O. | Bratzler, U. | Brau, B. | Brau, J. E. | Braun, H. M. | Brazzale, S. F. | Brelier, B. | Bremer, J. | Brendlinger, K. | Brenner, R. | Bressler, S. | Britton, D. | Brochu, F. M. | Brock, I. | Brock, R. | Broggi, F. | Bromberg, C. | Bronner, J. | Brooijmans, G. | Brooks, T. | Brooks, W. K. | Brown, G. | Brown, H. | Bruckman de Renstrom, P. A. | Bruncko, D. | Bruneliere, R. | Brunet, S. | Bruni, A. | Bruni, G. | Bruschi, M. | Buanes, T. | Buat, Q. | Bucci, F. | Buchanan, J. | Buchholz, P. | Buckingham, R. M. | Buckley, A. G. | Buda, S. I. | Budagov, I. A. | Budick, B. | Büscher, V. | Bugge, L. | Bulekov, O. | Bundock, A. C. | Bunse, M. | Buran, T. | Burckhart, H. | Burdin, S. | Burgess, T. | Burke, S. | Busato, E. | Bussey, P. | Buszello, C. P. | Butler, B. | Butler, J. M. | Buttar, C. M. | Butterworth, J. M. | Buttinger, W. | Byszewski, M. | Cabrera Urbán, S. | Caforio, D. | Cakir, O. | Calafiura, P. | Calderini, G. | Calfayan, P. | Calkins, R. | Caloba, L. P. | Caloi, R. | Calvet, D. | Calvet, S. | Camacho Toro, R. | Camarri, P. | Cameron, D. | Caminada, L. M. | Caminal Armadans, R. | Campana, S. | Campanelli, M. | Canale, V. | Canelli, F. | Canepa, A. | Cantero, J. | Cantrill, R. | Capasso, L. | Capeans Garrido, M. D. M. | Caprini, I. | Caprini, M. | Capriotti, D. | Capua, M. | Caputo, R. | Cardarelli, R. | Carli, T. | Carlino, G. | Carminati, L. | Caron, B. | Caron, S. | Carquin, E. | Carrillo-Montoya, G. D. | Carter, A. A. | Carter, J. R. | Carvalho, J. | Casadei, D. | Casado, M. P. | Cascella, M. | Caso, C. | Castaneda Hernandez, A. M. | Castaneda-Miranda, E. | Castillo Gimenez, V. | Castro, N. F. | Cataldi, G. | Catastini, P. | Catinaccio, A. | Catmore, J. R. | Cattai, A. | Cattani, G. | Caughron, S. | Cavaliere, V. | Cavalleri, P. | Cavalli, D. | Cavalli-Sforza, M. | Cavasinni, V. | Ceradini, F. | Cerqueira, A. S. | Cerri, A. | Cerrito, L. | Cerutti, F. | Cetin, S. A. | Chafaq, A. | Chakraborty, D. | Chalupkova, I. | Chan, K. | Chang, P. | Chapleau, B. | Chapman, J. D. | Chapman, J. W. | Chareyre, E. | Charlton, D. G. | Chavda, V. | Chavez Barajas, C. A. | Cheatham, S. | Chekanov, S. | Chekulaev, S. V. | Chelkov, G. A. | Chelstowska, M. A. | Chen, C. | Chen, H. | Chen, S. | Chen, X. | Chen, Y. | Cheng, Y. | Cheplakov, A. | Cherkaoui El Moursli, R. | Chernyatin, V. | Cheu, E. | Cheung, S. L. | Chevalier, L. | Chiefari, G. | Chikovani, L. | Childers, J. T. | Chilingarov, A. | Chiodini, G. | Chisholm, A. S. | Chislett, R. T. | Chitan, A. | Chizhov, M. V. | Choudalakis, G. | Chouridou, S. | Christidi, I. A. | Christov, A. | Chromek-Burckhart, D. | Chu, M. L. | Chudoba, J. | Ciapetti, G. | Ciftci, A. K. | Ciftci, R. | Cinca, D. | Cindro, V. | Ciocca, C. | Ciocio, A. | Cirilli, M. | Cirkovic, P. | Citron, Z. H. | Citterio, M. | Ciubancan, M. | Clark, A. | Clark, P. J. | Clarke, R. N. | Cleland, W. | Clemens, J. C. | Clement, B. | Clement, C. | Coadou, Y. | Cobal, M. | Coccaro, A. | Cochran, J. | Coffey, L. | Cogan, J. G. | Coggeshall, J. | Cogneras, E. | Colas, J. | Cole, S. | Colijn, A. P. | Collins, N. J. | Collins-Tooth, C. | Collot, J. | Colombo, T. | Colon, G. | Compostella, G. | Conde Muiño, P. | Coniavitis, E. | Conidi, M. C. | Consonni, S. M. | Consorti, V. | Constantinescu, S. | Conta, C. | Conti, G. | Conventi, F. | Cooke, M. | Cooper, B. D. | Cooper-Sarkar, A. M. | Copic, K. | Cornelissen, T. | Corradi, M. | Corriveau, F. | Cortes-Gonzalez, A. | Cortiana, G. | Costa, G. | Costa, M. J. | Costanzo, D. | Côté, D. | Courneyea, L. | Cowan, G. | Cowden, C. | Cox, B. E. | Cranmer, K. | Crescioli, F. | Cristinziani, M. | Crosetti, G. | Crépé-Renaudin, S. | Cuciuc, C.-M. | Cuenca Almenar, C. | Cuhadar Donszelmann, T. | Cummings, J. | Curatolo, M. | Curtis, C. J. | Cuthbert, C. | Cwetanski, P. | Czirr, H. | Czodrowski, P. | Czyczula, Z. | D’Auria, S. | D’Onofrio, M. | D’Orazio, A. | Da Cunha Sargedas De Sousa, M. J. | Da Via, C. | Dabrowski, W. | Dafinca, A. | Dai, T. | Dallapiccola, C. | Dam, M. | Dameri, M. | Damiani, D. S. | Danielsson, H. O. | Dao, V. | Darbo, G. | Darlea, G. L. | Dassoulas, J. A. | Davey, W. | Davidek, T. | Davidson, N. | Davidson, R. | Davies, E. | Davies, M. | Davignon, O. | Davison, A. R. | Davygora, Y. | Dawe, E. | Dawson, I. | Daya-Ishmukhametova, R. K. | De, K. | de Asmundis, R. | De Castro, S. | De Cecco, S. | de Graat, J. | De Groot, N. | de Jong, P. | De La Taille, C. | De la Torre, H. | De Lorenzi, F. | de Mora, L. | De Nooij, L. | De Pedis, D. | De Salvo, A. | De Sanctis, U. | De Santo, A. | De Vivie De Regie, J. B. | De Zorzi, G. | Dearnaley, W. J. | Debbe, R. | Debenedetti, C. | Dechenaux, B. | Dedovich, D. V. | Degenhardt, J. | Del Peso, J. | Del Prete, T. | Delemontex, T. | Deliyergiyev, M. | Dell’Acqua, A. | Dell’Asta, L. | Della Pietra, M. | della Volpe, D. | Delmastro, M. | Delsart, P. A. | Deluca, C. | Demers, S. | Demichev, M. | Demirkoz, B. | Denisov, S. P. | Derendarz, D. | Derkaoui, J. E. | Derue, F. | Dervan, P. | Desch, K. | Devetak, E. | Deviveiros, P. O. | Dewhurst, A. | DeWilde, B. | Dhaliwal, S. | Dhullipudi, R. | Di Ciaccio, A. | Di Ciaccio, L. | Di Donato, C. | Di Girolamo, A. | Di Girolamo, B. | Di Luise, S. | Di Mattia, A. | Di Micco, B. | Di Nardo, R. | Di Simone, A. | Di Sipio, R. | Diaz, M. A. | Diehl, E. B. | Dietrich, J. | Dietzsch, T. A. | Diglio, S. | Dindar Yagci, K. | Dingfelder, J. | Dinut, F. | Dionisi, C. | Dita, P. | Dita, S. | Dittus, F. | Djama, F. | Djobava, T. | do Vale, M. A. B. | Do Valle Wemans, A. | Doan, T. K. O. | Dobbs, M. | Dobos, D. | Dobson, E. | Dodd, J. | Doglioni, C. | Doherty, T. | Doi, Y. | Dolejsi, J. | Dolenc, I. | Dolezal, Z. | Dolgoshein, B. A. | Dohmae, T. | Donadelli, M. | Donini, J. | Dopke, J. | Doria, A. | Dos Anjos, A. | Dotti, A. | Dova, M. T. | Doxiadis, A. D. | Doyle, A. T. | Dressnandt, N. | Dris, M. | Dubbert, J. | Dube, S. | Duchovni, E. | Duckeck, G. | Duda, D. | Dudarev, A. | Dudziak, F. | Dührssen, M. | Duerdoth, I. P. | Duflot, L. | Dufour, M. -A. | Duguid, L. | Dunford, M. | Duran Yildiz, H. | Duxfield, R. | Dwuznik, M. | Düren, M. | Ebenstein, W. L. | Ebke, J. | Eckweiler, S. | Edmonds, K. | Edson, W. | Edwards, C. A. | Edwards, N. C. | Ehrenfeld, W. | Eifert, T. | Eigen, G. | Einsweiler, K. | Eisenhandler, E. | Ekelof, T. | El Kacimi, M. | Ellert, M. | Elles, S. | Ellinghaus, F. | Ellis, K. | Ellis, N. | Elmsheuser, J. | Elsing, M. | Emeliyanov, D. | Engelmann, R. | Engl, A. | Epp, B. | Erdmann, J. | Ereditato, A. | Eriksson, D. | Ernst, J. | Ernst, M. | Ernwein, J. | Errede, D. | Errede, S. | Ertel, E. | Escalier, M. | Esch, H. | Escobar, C. | Espinal Curull, X. | Esposito, B. | Etienne, F. | Etienvre, A. I. | Etzion, E. | Evangelakou, D. | Evans, H. | Fabbri, L. | Fabre, C. | Fakhrutdinov, R. M. | Falciano, S. | Fang, Y. | Fanti, M. | Farbin, A. | Farilla, A. | Farley, J. | Farooque, T. | Farrell, S. | Farrington, S. M. | Farthouat, P. | Fassi, F. | Fassnacht, P. | Fassouliotis, D. | Fatholahzadeh, B. | Favareto, A. | Fayard, L. | Fazio, S. | Febbraro, R. | Federic, P. | Fedin, O. L. | Fedorko, W. | Fehling-Kaschek, M. | Feligioni, L. | Feng, C. | Feng, E. J. | Fenyuk, A. B. | Ferencei, J. | Fernando, W. | Ferrag, S. | Ferrando, J. | Ferrara, V. | Ferrari, A. | Ferrari, P. | Ferrari, R. | Ferreira de Lima, D. E. | Ferrer, A. | Ferrere, D. | Ferretti, C. | Ferretto Parodi, A. | Fiascaris, M. | Fiedler, F. | Filipčič, A. | Filthaut, F. | Fincke-Keeler, M. | Fiolhais, M. C. N. | Fiorini, L. | Firan, A. | Fischer, G. | Fisher, M. J. | Flechl, M. | Fleck, I. | Fleckner, J. | Fleischmann, P. | Fleischmann, S. | Flick, T. | Floderus, A. | Flores Castillo, L. R. | Flowerdew, M. J. | Fonseca Martin, T. | Formica, A. | Forti, A. | Fortin, D. | Fournier, D. | Fowler, A. J. | Fox, H. | Francavilla, P. | Franchini, M. | Franchino, S. | Francis, D. | Frank, T. | Franklin, M. | Franz, S. | Fraternali, M. | Fratina, S. | French, S. T. | Friedrich, C. | Friedrich, F. | Froeschl, R. | Froidevaux, D. | Frost, J. A. | Fukunaga, C. | Fullana Torregrosa, E. | Fulsom, B. G. | Fuster, J. | Gabaldon, C. | Gabizon, O. | Gadfort, T. | Gadomski, S. | Gagliardi, G. | Gagnon, P. | Galea, C. | Galhardo, B. | Gallas, E. J. | Gallo, V. | Gallop, B. J. | Gallus, P. | Gan, K. K. | Gao, Y. S. | Gaponenko, A. | Garberson, F. | Garcia-Sciveres, M. | García, C. | García Navarro, J. E. | Gardner, R. W. | Garelli, N. | Garitaonandia, H. | Garonne, V. | Gatti, C. | Gaudio, G. | Gaur, B. | Gauthier, L. | Gauzzi, P. | Gavrilenko, I. L. | Gay, C. | Gaycken, G. | Gazis, E. N. | Ge, P. | Gecse, Z. | Gee, C. N. P. | Geerts, D. A. A. | Geich-Gimbel, Ch. | Gellerstedt, K. | Gemme, C. | Gemmell, A. | Genest, M. H. | Gentile, S. | George, M. | George, S. | Gerlach, P. | Gershon, A. | Geweniger, C. | Ghazlane, H. | Ghodbane, N. | Giacobbe, B. | Giagu, S. | Giakoumopoulou, V. | Giangiobbe, V. | Gianotti, F. | Gibbard, B. | Gibson, A. | Gibson, S. M. | Gilchriese, M. | Gillberg, D. | Gillman, A. R. | Gingrich, D. M. | Ginzburg, J. | Giokaris, N. | Giordani, M. P. | Giordano, R. | Giorgi, F. M. | Giovannini, P. | Giraud, P. F. | Giugni, D. | Giunta, M. | Gjelsten, B. K. | Gladilin, L. K. | Glasman, C. | Glatzer, J. | Glazov, A. | Glitza, K. W. | Glonti, G. L. | Goddard, J. R. | Godfrey, J. | Godlewski, J. | Goebel, M. | Göpfert, T. | Goeringer, C. | Gössling, C. | Goldfarb, S. | Golling, T. | Gomes, A. | Gomez Fajardo, L. S. | Gonçalo, R. | Goncalves Pinto Firmino Da Costa, J. | Gonella, L. | González de la Hoz, S. | Gonzalez Parra, G. | Gonzalez Silva, M. L. | Gonzalez-Sevilla, S. | Goodson, J. J. | Goossens, L. | Gorbounov, P. A. | Gordon, H. A. | Gorelov, I. | Gorfine, G. | Gorini, B. | Gorini, E. | Gorišek, A. | Gornicki, E. | Goshaw, A. T. | Gosselink, M. | Gostkin, M. I. | Gough Eschrich, I. | Gouighri, M. | Goujdami, D. | Goulette, M. P. | Goussiou, A. G. | Goy, C. | Gozpinar, S. | Grabowska-Bold, I. | Grafström, P. | Grahn, K. -J. | Gramstad, E. | Grancagnolo, F. | Grancagnolo, S. | Grassi, V. | Gratchev, V. | Grau, N. | Gray, H. M. | Gray, J. A. | Graziani, E. | Grebenyuk, O. G. | Greenshaw, T. | Greenwood, Z. D. | Gregersen, K. | Gregor, I. M. | Grenier, P. | Griffiths, J. | Grigalashvili, N. | Grillo, A. A. | Grinstein, S. | Gris, Ph. | Grishkevich, Y. V. | Grivaz, J. -F. | Gross, E. | Grosse-Knetter, J. | Groth-Jensen, J. | Grybel, K. | Guest, D. | Guicheney, C. | Guido, E. | Guindon, S. | Gul, U. | Gunther, J. | Guo, B. | Guo, J. | Gutierrez, P. | Guttman, N. | Gutzwiller, O. | Guyot, C. | Gwenlan, C.
A measurement is presented of the \documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$\phi \times \mathcal {BR}(\phi \rightarrow K^{+}K^{-})$$\end{document}ϕ×BR(ϕ→K+K-) production cross section at \documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$\sqrt{s}$$\end{document}s = 7 TeV using \documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$pp$$\end{document}pp collision data corresponding to an integrated luminosity of 383 \documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$\mathrm {\upmu b^{-1}}$$\end{document}μb-1, collected with the ATLAS experiment at the LHC. Selection of \documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$\phi $$\end{document}ϕ(1020) mesons is based on the identification of charged kaons by their energy loss in the pixel detector. The differential cross section is measured as a function of the transverse momentum, \documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$p_{\mathrm {T,\phi }}$$\end{document}pT,ϕ, and rapidity, \documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$y_{\phi }$$\end{document}yϕ, of the \documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$\phi $$\end{document}ϕ(1020) meson in the fiducial region 500 \documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$$$\end{document}pT,K> 230 MeV and kaon momentum \documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$p_{K}<$$\end{document}pK< 800 MeV. The integrated \documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$\phi (1020)$$\end{document}ϕ(1020)-meson production cross section in this fiducial range is measured to be \documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$\sigma _{\phi } \times \mathcal {BR}(\phi \rightarrow K^{+}K^{-}) $$\end{document}σϕ×BR(ϕ→K+K-) = 570 \documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$\pm $$\end{document}± 8 (stat) \documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$\pm $$\end{document}± 66 (syst) \documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$\pm $$\end{document}± 20 (lumi) \documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$\mathrm {\upmu b}$$\end{document}μb.
doi:10.1140/epjc/s10052-014-2895-2
PMCID: PMC4371126  PMID: 25814898
20.  Predicting Response to Intensive Multimodal Inpatient Treatment: A Comparison of Single and Multiple Class Latent Growth Curve Modeling Approaches 
Journal of personality assessment  2013;96(3):306-315.
In a modest body of research, personality functioning assessed via performance-based instruments has been found to validly predict treatment outcome and, to some extent, differential response to treatment. However, state-of-the-science longitudinal and mixture modeling techniques, which are common in many areas of clinical psychology, have rarely been used. In this article, we compare multilevel growth curve modeling (MLM) and latent class growth modeling (LCGM) approaches with the same dataset to illustrate the different research questions that can be addressed by each method. Global Assessment of Functioning (GAF) scores collected at six points during the course of a long-term multimodal inpatient treatment of 58 severely and persistently mentally ill adults were used to model the trajectory of treatment outcome. Pretreatment personality functioning and other markers of psychiatric severity were examined as covariates in each modeling approach. The results of both modeling approaches generally indicated that more psychologically impaired clients responded less favorably to treatment. The LCGM approach revealed two unique trajectories of improvement (a persistently low group and a higher starting, improving group). Personality functioning and baseline psychiatric variables significantly predicted group membership and the rate of change within the groups. A side-by-side examination of these two methods was found to be useful in predicting differential treatment response with personality functioning variables.
doi:10.1080/00223891.2013.834439
PMCID: PMC3965655  PMID: 24066712
21.  Improved luminosity determination in pp collisions at \documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$\sqrt {s} = 7\ \mathrm{TeV}$\end{document} using the ATLAS detector at the LHC 
Aad, G. | Abajyan, T. | Abbott, B. | Abdallah, J. | Abdel Khalek, S. | Abdelalim, A. A. | Abdinov, O. | Aben, R. | Abi, B. | Abolins, M. | AbouZeid, O. S. | Abramowicz, H. | Abreu, H. | Acerbi, E. | Acharya, B. S. | Adamczyk, L. | Adams, D. L. | Addy, T. N. | Adelman, J. | Adomeit, S. | Adragna, P. | Adye, T. | Aefsky, S. | Aguilar-Saavedra, J. A. | Agustoni, M. | Aharrouche, M. | Ahlen, S. P. | Ahles, F. | Ahmad, A. | Ahsan, M. | Aielli, G. | Akdogan, T. | Åkesson, T. P. A. | Akimoto, G. | Akimov, A. V. | Alam, M. S. | Alam, M. A. | Albert, J. | Albrand, S. | Aleksa, M. | Aleksandrov, I. N. | Alessandria, F. | Alexa, C. | Alexander, G. | Alexandre, G. | Alexopoulos, T. | Alhroob, M. | Aliev, M. | Alimonti, G. | Alison, J. | Allbrooke, B. M. M. | Allport, P. P. | Allwood-Spiers, S. E. | Almond, J. | Aloisio, A. | Alon, R. | Alonso, A. | Alonso, F. | Alvarez Gonzalez, B. | Alviggi, M. G. | Amako, K. | Amelung, C. | Ammosov, V. V. | Amor Dos Santos, S. P. | Amorim, A. | Amram, N. | Anastopoulos, C. | Ancu, L. S. | Andari, N. | Andeen, T. | Anders, C. F. | Anders, G. | Anderson, K. J. | Andreazza, A. | Andrei, V. | Andrieux, M-L. | Anduaga, X. S. | Anger, P. | Angerami, A. | Anghinolfi, F. | Anisenkov, A. | Anjos, N. | Annovi, A. | Antonaki, A. | Antonelli, M. | Antonov, A. | Antos, J. | Anulli, F. | Aoki, M. | Aoun, S. | Aperio Bella, L. | Apolle, R. | Arabidze, G. | Aracena, I. | Arai, Y. | Arce, A. T. H. | Arfaoui, S. | Arguin, J-F. | Arik, E. | Arik, M. | Armbruster, A. J. | Arnaez, O. | Arnal, V. | Arnault, C. | Artamonov, A. | Artoni, G. | Arutinov, D. | Asai, S. | Asfandiyarov, R. | Ask, S. | Åsman, B. | Asquith, L. | Assamagan, K. | Astbury, A. | Atkinson, M. | Aubert, B. | Auge, E. | Augsten, K. | Aurousseau, M. | Avolio, G. | Avramidou, R. | Axen, D. | Azuelos, G. | Azuma, Y. | Baak, M. A. | Baccaglioni, G. | Bacci, C. | Bach, A. M. | Bachacou, H. | Bachas, K. | Backes, M. | Backhaus, M. | Badescu, E. | Bagnaia, P. | Bahinipati, S. | Bai, Y. | Bailey, D. C. | Bain, T. | Baines, J. T. | Baker, O. K. | Baker, M. D. | Baker, S. | Banas, E. | Banerjee, P. | Banerjee, Sw. | Banfi, D. | Bangert, A. | Bansal, V. | Bansil, H. S. | Barak, L. | Baranov, S. P. | Barbaro Galtieri, A. | Barber, T. | Barberio, E. L. | Barberis, D. | Barbero, M. | Bardin, D. Y. | Barillari, T. | Barisonzi, M. | Barklow, T. | Barlow, N. | Barnett, B. M. | Barnett, R. M. | Baroncelli, A. | Barone, G. | Barr, A. J. | Barreiro, F. | Barreiro Guimarães da Costa, J. | Barrillon, P. | Bartoldus, R. | Barton, A. E. | Bartsch, V. | Basye, A. | Bates, R. L. | Batkova, L. | Batley, J. R. | Battaglia, A. | Battistin, M. | Bauer, F. | Bawa, H. S. | Beale, S. | Beau, T. | Beauchemin, P. H. | Beccherle, R. | Bechtle, P. | Beck, H. P. | Becker, K. | Becker, S. | Beckingham, M. | Becks, K. H. | Beddall, A. J. | Beddall, A. | Bedikian, S. | Bednyakov, V. A. | Bee, C. P. | Beemster, L. J. | Begel, M. | Behar Harpaz, S. | Behera, P. K. | Beimforde, M. | Belanger-Champagne, C. | Bell, P. J. | Bell, W. H. | Bella, G. | Bellagamba, L. | Bellina, F. | Bellomo, M. | Belloni, A. | Beloborodova, O. | Belotskiy, K. | Beltramello, O. | Benary, O. | Benchekroun, D. | Bendtz, K. | Benekos, N. | Benhammou, Y. | Benhar Noccioli, E. | Benitez Garcia, J. A. | Benjamin, D. P. | Benoit, M. | Bensinger, J. R. | Benslama, K. | Bentvelsen, S. | Berge, D. | Bergeaas Kuutmann, E. | Berger, N. | Berghaus, F. | Berglund, E. | Beringer, J. | Bernat, P. | Bernhard, R. | Bernius, C. | Berry, T. | Bertella, C. | Bertin, A. | Bertolucci, F. | Besana, M. I. | Besjes, G. J. | Besson, N. | Bethke, S. | Bhimji, W. | Bianchi, R. M. | Bianco, M. | Biebel, O. | Bieniek, S. P. | Bierwagen, K. | Biesiada, J. | Biglietti, M. | Bilokon, H. | Bindi, M. | Binet, S. | Bingul, A. | Bini, C. | Biscarat, C. | Bittner, B. | Black, K. M. | Blair, R. E. | Blanchard, J.-B. | Blanchot, G. | Blazek, T. | Bloch, I. | Blocker, C. | Blocki, J. | Blondel, A. | Blum, W. | Blumenschein, U. | Bobbink, G. J. | Bobrovnikov, V. S. | Bocchetta, S. S. | Bocci, A. | Boddy, C. R. | Boehler, M. | Boek, J. | Boek, T. T. | Boelaert, N. | Bogaerts, J. A. | Bogdanchikov, A. | Bogouch, A. | Bohm, C. | Bohm, J. | Boisvert, V. | Bold, T. | Boldea, V. | Bolnet, N. M. | Bomben, M. | Bona, M. | Boonekamp, M. | Booth, C. N. | Bordoni, S. | Borer, C. | Borisov, A. | Borissov, G. | Borjanovic, I. | Borri, M. | Borroni, S. | Bortolotto, V. | Bos, K. | Boscherini, D. | Bosman, M. | Boterenbrood, H. | Bouchami, J. | Boudreau, J. | Bouhova-Thacker, E. V. | Boumediene, D. | Bourdarios, C. | Bousson, N. | Boveia, A. | Boyd, J. | Boyko, I. R. | Bozovic-Jelisavcic, I. | Bracinik, J. | Branchini, P. | Brandenburg, G. W. | Brandt, A. | Brandt, G. | Brandt, O. | Bratzler, U. | Brau, B. | Brau, J. E. | Braun, H. M. | Brazzale, S. F. | Brelier, B. | Bremer, J. | Brendlinger, K. | Brenner, R. | Bressler, S. | Britton, D. | Brochu, F. M. | Brock, I. | Brock, R. | Broggi, F. | Bromberg, C. | Bronner, J. | Brooijmans, G. | Brooks, T. | Brooks, W. K. | Brown, G. | Brown, H. | Bruckman de Renstrom, P. A. | Bruncko, D. | Bruneliere, R. | Brunet, S. | Bruni, A. | Bruni, G. | Bruschi, M. | Buanes, T. | Buat, Q. | Bucci, F. | Buchanan, J. | Buchholz, P. | Buckingham, R. M. | Buckley, A. G. | Buda, S. I. | Budagov, I. A. | Budick, B. | Bugge, L. | Bulekov, O. | Bundock, A. C. | Bunse, M. | Buran, T. | Burckhart, H. | Burdin, S. | Burgess, T. | Burke, S. | Busato, E. | Büscher, V. | Bussey, P. | Buszello, C. P. | Butler, B. | Butler, J. M. | Buttar, C. M. | Butterworth, J. M. | Buttinger, W. | Byszewski, M. | Cabrera Urbán, S. | Caforio, D. | Cakir, O. | Calafiura, P. | Calderini, G. | Calfayan, P. | Calkins, R. | Caloba, L. P. | Caloi, R. | Calvet, D. | Calvet, S. | Camacho Toro, R. | Camarri, P. | Cameron, D. | Caminada, L. M. | Caminal Armadans, R. | Campana, S. | Campanelli, M. | Canale, V. | Canelli, F. | Canepa, A. | Cantero, J. | Cantrill, R. | Capasso, L. | Capeans Garrido, M. D. M. | Caprini, I. | Caprini, M. | Capriotti, D. | Capua, M. | Caputo, R. | Cardarelli, R. | Carli, T. | Carlino, G. | Carminati, L. | Caron, B. | Caron, S. | Carquin, E. | Carrillo-Montoya, G. D. | Carter, A. A. | Carter, J. R. | Carvalho, J. | Casadei, D. | Casado, M. P. | Cascella, M. | Caso, C. | Castaneda Hernandez, A. M. | Castaneda-Miranda, E. | Castillo Gimenez, V. | Castro, N. F. | Cataldi, G. | Catastini, P. | Catinaccio, A. | Catmore, J. R. | Cattai, A. | Cattani, G. | Caughron, S. | Cavaliere, V. | Cavalleri, P. | Cavalli, D. | Cavalli-Sforza, M. | Cavasinni, V. | Ceradini, F. | Cerqueira, A. S. | Cerri, A. | Cerrito, L. | Cerutti, F. | Cetin, S. A. | Chafaq, A. | Chakraborty, D. | Chalupkova, I. | Chan, K. | Chang, P. | Chapleau, B. | Chapman, J. D. | Chapman, J. W. | Chareyre, E. | Charlton, D. G. | Chavda, V. | Chavez Barajas, C. A. | Cheatham, S. | Chekanov, S. | Chekulaev, S. V. | Chelkov, G. A. | Chelstowska, M. A. | Chen, C. | Chen, H. | Chen, S. | Chen, X. | Chen, Y. | Cheplakov, A. | Cherkaoui El Moursli, R. | Chernyatin, V. | Cheu, E. | Cheung, S. L. | Chevalier, L. | Chiefari, G. | Chikovani, L. | Childers, J. T. | Chilingarov, A. | Chiodini, G. | Chisholm, A. S. | Chislett, R. T. | Chitan, A. | Chizhov, M. V. | Choudalakis, G. | Chouridou, S. | Christidi, I. A. | Christov, A. | Chromek-Burckhart, D. | Chu, M. L. | Chudoba, J. | Ciapetti, G. | Ciftci, A. K. | Ciftci, R. | Cinca, D. | Cindro, V. | Ciocca, C. | Ciocio, A. | Cirilli, M. | Cirkovic, P. | Citron, Z. H. | Citterio, M. | Ciubancan, M. | Clark, A. | Clark, P. J. | Clarke, R. N. | Cleland, W. | Clemens, J. C. | Clement, B. | Clement, C. | Coadou, Y. | Cobal, M. | Coccaro, A. | Cochran, J. | Cogan, J. G. | Coggeshall, J. | Cogneras, E. | Colas, J. | Cole, S. | Colijn, A. P. | Collins, N. J. | Collins-Tooth, C. | Collot, J. | Colombo, T. | Colon, G. | Conde Muiño, P. | Coniavitis, E. | Conidi, M. C. | Consonni, S. M. | Consorti, V. | Constantinescu, S. | Conta, C. | Conti, G. | Conventi, F. | Cooke, M. | Cooper, B. D. | Cooper-Sarkar, A. M. | Copic, K. | Cornelissen, T. | Corradi, M. | Corriveau, F. | Cortes-Gonzalez, A. | Cortiana, G. | Costa, G. | Costa, M. J. | Costanzo, D. | Côté, D. | Courneyea, L. | Cowan, G. | Cowden, C. | Cox, B. E. | Cranmer, K. | Crépé-Renaudin, S. | Crescioli, F. | Cristinziani, M. | Crosetti, G. | Cuciuc, C.-M. | Cuenca Almenar, C. | Cuhadar Donszelmann, T. | Curatolo, M. | Curtis, C. J. | Cuthbert, C. | Cwetanski, P. | Czirr, H. | Czodrowski, P. | Czyczula, Z. | D’Auria, S. | D’Onofrio, M. | D’Orazio, A. | Da Cunha Sargedas De Sousa, M. J. | Da Via, C. | Dabrowski, W. | Dafinca, A. | Dai, T. | Dallapiccola, C. | Dam, M. | Dameri, M. | Damiani, D. S. | Danielsson, H. O. | Dao, V. | Darbo, G. | Darlea, G. L. | Dassoulas, J. A. | Davey, W. | Davidek, T. | Davidson, N. | Davidson, R. | Davies, E. | Davies, M. | Davignon, O. | Davison, A. R. | Davygora, Y. | Dawe, E. | Dawson, I. | Daya-Ishmukhametova, R. K. | De, K. | de Asmundis, R. | De Castro, S. | De Cecco, S. | de Graat, J. | De Groot, N. | de Jong, P. | De La Taille, C. | De la Torre, H. | De Lorenzi, F. | de Mora, L. | De Nooij, L. | De Pedis, D. | De Salvo, A. | De Sanctis, U. | De Santo, A. | De Vivie De Regie, J. B. | De Zorzi, G. | Dearnaley, W. J. | Debbe, R. | Debenedetti, C. | Dechenaux, B. | Dedovich, D. V. | Degenhardt, J. | Del Papa, C. | Del Peso, J. | Del Prete, T. | Delemontex, T. | Deliyergiyev, M. | Dell’Acqua, A. | Dell’Asta, L. | Della Pietra, M. | della Volpe, D. | Delmastro, M. | Delsart, P. A. | Deluca, C. | Demers, S. | Demichev, M. | Demirkoz, B. | Deng, J. | Denisov, S. P. | Derendarz, D. | Derkaoui, J. E. | Derue, F. | Dervan, P. | Desch, K. | Devetak, E. | Deviveiros, P. O. | Dewhurst, A. | DeWilde, B. | Dhaliwal, S. | Dhullipudi, R. | Di Ciaccio, A. | Di Ciaccio, L. | Di Girolamo, A. | Di Girolamo, B. | Di Luise, S. | Di Mattia, A. | Di Micco, B. | Di Nardo, R. | Di Simone, A. | Di Sipio, R. | Diaz, M. A. | Diehl, E. B. | Dietrich, J. | Dietzsch, T. A. | Diglio, S. | Dindar Yagci, K. | Dingfelder, J. | Dinut, F. | Dionisi, C. | Dita, P. | Dita, S. | Dittus, F. | Djama, F. | Djobava, T. | do Vale, M. A. B. | Do Valle Wemans, A. | Doan, T. K. O. | Dobbs, M. | Dobinson, R. | Dobos, D. | Dobson, E. | Dodd, J. | Doglioni, C. | Doherty, T. | Dohmae, T. | Doi, Y. | Dolejsi, J. | Dolenc, I. | Dolezal, Z. | Dolgoshein, B. A. | Donadelli, M. | Donini, J. | Dopke, J. | Doria, A. | Dos Anjos, A. | Dotti, A. | Dova, M. T. | Doxiadis, A. D. | Doyle, A. T. | Dressnandt, N. | Dris, M. | Dubbert, J. | Dube, S. | Duchovni, E. | Duckeck, G. | Duda, D. | Dudarev, A. | Dudziak, F. | Duerdoth, I. P. | Duflot, L. | Dufour, M-A. | Duguid, L. | Dührssen, M. | Dunford, M. | Duran Yildiz, H. | Düren, M. | Duxfield, R. | Dwuznik, M. | Dydak, F. | Ebenstein, W. L. | Ebke, J. | Eckweiler, S. | Edmonds, K. | Edson, W. | Edwards, C. A. | Edwards, N. C. | Ehrenfeld, W. | Eifert, T. | Eigen, G. | Einsweiler, K. | Eisenhandler, E. | Ekelof, T. | El Kacimi, M. | Ellert, M. | Elles, S. | Ellinghaus, F. | Ellis, K. | Ellis, N. | Elmsheuser, J. | Elsing, M. | Emeliyanov, D. | Engelmann, R. | Engl, A. | Epp, B. | Erdmann, J. | Ereditato, A. | Eriksson, D. | Ernst, J. | Ernst, M. | Ernwein, J. | Errede, D. | Errede, S. | Ertel, E. | Escalier, M. | Esch, H. | Escobar, C. | Espinal Curull, X. | Esposito, B. | Etienne, F. | Etienvre, A. I. | Etzion, E. | Evangelakou, D. | Evans, H. | Fabbri, L. | Fabre, C. | Fakhrutdinov, R. M. | Falciano, S. | Fang, Y. | Fanti, M. | Farbin, A. | Farilla, A. | Farley, J. | Farooque, T. | Farrell, S. | Farrington, S. M. | Farthouat, P. | Fassi, F. | Fassnacht, P. | Fassouliotis, D. | Fatholahzadeh, B. | Favareto, A. | Fayard, L. | Fazio, S. | Febbraro, R. | Federic, P. | Fedin, O. L. | Fedorko, W. | Fehling-Kaschek, M. | Feligioni, L. | Fellmann, D. | Feng, C. | Feng, E. J. | Fenyuk, A. B. | Ferencei, J. | Fernando, W. | Ferrag, S. | Ferrando, J. | Ferrara, V. | Ferrari, A. | Ferrari, P. | Ferrari, R. | Ferreira de Lima, D. E. | Ferrer, A. | Ferrere, D. | Ferretti, C. | Ferretto Parodi, A. | Fiascaris, M. | Fiedler, F. | Filipčič, A. | Filthaut, F. | Fincke-Keeler, M. | Fiolhais, M. C. N. | Fiorini, L. | Firan, A. | Fischer, G. | Fisher, M. J. | Flechl, M. | Fleck, I. | Fleckner, J. | Fleischmann, P. | Fleischmann, S. | Flick, T. | Floderus, A. | Flores Castillo, L. R. | Flowerdew, M. J. | Fonseca Martin, T. | Formica, A. | Forti, A. | Fortin, D. | Fournier, D. | Fowler, A. J. | Fox, H. | Francavilla, P. | Franchini, M. | Franchino, S. | Francis, D. | Frank, T. | Franz, S. | Fraternali, M. | Fratina, S. | French, S. T. | Friedrich, C. | Friedrich, F. | Froeschl, R. | Froidevaux, D. | Frost, J. A. | Fukunaga, C. | Fullana Torregrosa, E. | Fulsom, B. G. | Fuster, J. | Gabaldon, C. | Gabizon, O. | Gadfort, T. | Gadomski, S. | Gagliardi, G. | Gagnon, P. | Galea, C. | Galhardo, B. | Gallas, E. J. | Gallo, V. | Gallop, B. J. | Gallus, P. | Gan, K. K. | Gao, Y. S. | Gaponenko, A. | Garberson, F. | García, C. | García Navarro, J. E. | Garcia-Sciveres, M. | Gardner, R. W. | Garelli, N. | Garitaonandia, H. | Garonne, V. | Gatti, C. | Gaudio, G. | Gaur, B. | Gauthier, L. | Gauzzi, P. | Gavrilenko, I. L. | Gay, C. | Gaycken, G. | Gazis, E. N. | Ge, P. | Gecse, Z. | Gee, C. N. P. | Geerts, D. A. A. | Geich-Gimbel, Ch. | Gellerstedt, K. | Gemme, C. | Gemmell, A. | Genest, M. H. | Gentile, S. | George, M. | George, S. | Gerlach, P. | Gershon, A. | Geweniger, C. | Ghazlane, H. | Ghodbane, N. | Giacobbe, B. | Giagu, S. | Giakoumopoulou, V. | Giangiobbe, V. | Gianotti, F. | Gibbard, B. | Gibson, A. | Gibson, S. M. | Gilchriese, M. | Gillberg, D. | Gillman, A. R. | Gingrich, D. M. | Ginzburg, J. | Giokaris, N. | Giordani, M. P. | Giordano, R. | Giorgi, F. M. | Giovannini, P. | Giraud, P. F. | Giugni, D. | Giunta, M. | Giusti, P. | Gjelsten, B. K. | Gladilin, L. K. | Glasman, C. | Glatzer, J. | Glazov, A. | Glitza, K. W. | Glonti, G. L. | Goddard, J. R. | Godfrey, J. | Godlewski, J. | Goebel, M. | Goeringer, C. | Goldfarb, S. | Golling, T. | Gomes, A. | Gomez Fajardo, L. S. | Gonçalo, R. | Goncalves Pinto Firmino Da Costa, J. | Gonella, L. | Gonzalez, S. | González de la Hoz, S. | Gonzalez Parra, G. | Gonzalez Silva, M. L. | Gonzalez-Sevilla, S. | Goodson, J. J. | Goossens, L. | Göpfert, T. | Gorbounov, P. A. | Gordon, H. A. | Gorelov, I. | Gorfine, G. | Gorini, B. | Gorini, E. | Gorišek, A. | Gornicki, E. | Gosdzik, B. | Goshaw, A. T. | Gosselink, M. | Gössling, C. | Gostkin, M. I. | Gough Eschrich, I. | Gouighri, M. | Goujdami, D. | Goulette, M. P. | Goussiou, A. G. | Goy, C. | Gozpinar, S. | Grabowska-Bold, I. | Grafström, P. | Grahn, K-J. | Grancagnolo, F. | Grancagnolo, S. | Grassi, V. | Gratchev, V. | Grau, N. | Gray, H. M. | Gray, J. A. | Graziani, E. | Grebenyuk, O. G. | Greenshaw, T. | Greenwood, Z. D. | Gregersen, K. | Gregor, I. M. | Grenier, P. | Griffiths, J. | Grigalashvili, N. | Grillo, A. A. | Grinstein, S. | Gris, Ph. | Grishkevich, Y. V. | Grivaz, J.-F. | Gross, E. | Grosse-Knetter, J. | Groth-Jensen, J. | Grybel, K. | Guest, D. | Guicheney, C. | Guindon, S. | Gul, U. | Guler, H. | Gunther, J. | Guo, B. | Guo, J. | Gutierrez, P. | Guttman, N. | Gutzwiller, O. | Guyot, C. | Gwenlan, C.
The luminosity calibration for the ATLAS detector at the LHC during pp collisions at \documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$\sqrt{s} = 7~\mathrm{TeV}$\end{document} in 2010 and 2011 is presented. Evaluation of the luminosity scale is performed using several luminosity-sensitive detectors, and comparisons are made of the long-term stability and accuracy of this calibration applied to the pp collisions at \documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$\sqrt{s} = 7~\mathrm{TeV}$\end{document}. A luminosity uncertainty of \documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$\delta\mathcal{L}/ \mathcal{L} = \pm 3.5~\%$\end{document} is obtained for the 47 pb−1 of data delivered to ATLAS in 2010, and an uncertainty of \documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$\delta\mathcal{L}/ \mathcal{L} = \pm1.8~\%$\end{document} is obtained for the 5.5 fb−1 delivered in 2011.
doi:10.1140/epjc/s10052-013-2518-3
PMCID: PMC4370906  PMID: 25814867
22.  Once-daily topical brimonidine tartrate gel 0·5% is a novel treatment for moderate to severe facial erythema of rosacea: results of two multicentre, randomized and vehicle-controlled studies 
The British journal of dermatology  2012;166(3):633-641.
Summary
Background
Erythema of rosacea is thought to result from abnormal cutaneous vasomotor activity. Brimonidine tartrate (BT) is a highly selective α2-adrenergic receptor agonist with vasoconstrictive activity.
Objective
To determine the optimal concentration and dose regimen of topical BT gel for the treatment of erythema of rosacea and to evaluate its efficacy and safety.
Methods
In study A, 122 subjects were randomized to receive a single application of BT 0·07%, 0·18%, 0·5% or vehicle. In study B (4-week treatment and 4-week follow-up), 269 subjects were randomized to receive BT 0·5% once daily, BT 0·18% once daily, vehicle once daily, BT 0·18% twice daily or vehicle twice daily. Evaluations included Clinician’s Erythema Assessment (CEA), Patient’s Self-Assessment (PSA), Chroma Meter measurements and adverse events.
Results
In study A, a single application of topical BT gel reduced facial erythema in a dose-dependent fashion. A significant difference between BT 0·5% and vehicle in Chroma Meter redness value was observed from 30 min to 12 h after application. In study B, BT 0·5% once daily had a statistically superior success profile (defined as a two-grade improvement on both CEA and PSA over 12 h) compared with vehicle once daily on days 1, 15 and 29 (all P < 0·001). No tachyphylaxis, rebound of erythema or aggravation of other disease signs (telangiectasia, inflammatory lesions) was observed. All regimens were safe and well tolerated with similarly low incidence of adverse events.
Conclusions
Once-daily BT gel 0·5% is well tolerated and provides significantly greater efficacy than vehicle gel for the treatment of moderate to severe erythema of rosacea.
doi:10.1111/j.1365-2133.2011.10716.x
PMCID: PMC3711536  PMID: 22050040
23.  Pharmacologically-mediated reactivation and reconsolidation blockade of the psychostimulant-abuse circuit: A novel treatment strategy 
Drug and alcohol dependence  2012;124(1-2):11-18.
Psychostimulant abuse continues to present legal, socioeconomic and medical challenges as a primary psychiatric disorder, and represents a significant comorbid factor in major psychiatric and medical illnesses. To date, monotherapeutic drug treatments have not proven effective in promoting long-term abstinence in psychostimulant abusers. In contrast to clinical trials utilizing monotherapies, combinations of dopamine (DA) agonists and selective 5-HT3, 5HT2A/2C, or NK1 antagonists have shown robust efficacy in reversing behavioral and neurobiological alterations in animal models of psychostimulant abuse. One important temporal requirement for these treatments is that the 5-HT or NK1 receptor antagonist be given at a critical time window after DA agonist administration. This requirement may reflect a necessary dosing regimen towards normalizing underlying dysfunctional neural circuits and “addiction memory” states. Indeed, chronic psychostimulant abuse can be conceptualized as a consolidated form of dysfunctional memory maintained by repeated drug- or cue-induced reactivation of neural circuit and subsequent reconsolidation. According to this concept, the DA agonist given first may reactivate this memory circuit, thereby rendering it transiently labile. The subsequent antagonist is hypothesized to disrupt reconsolidation necessary for restabilization, thus leading progressively to a therapeutically-mediated abolishment of dysfunctional synaptic plasticity. We propose that long-term abstinence in psychostimulant abusers may be achieved not only by targeting putative mechanistic pathways, but also by optimizing drug treatment regimens designed to disrupt the neural processes underlying the addicted state.
doi:10.1016/j.drugalcdep.2012.01.021
PMCID: PMC3500569  PMID: 22356892
Cocaine; Methamphetamine; Synaptic plasticity; Addiction; Substance abuse; Pharmacological treatment
24.  Search for a light charged Higgs boson in the decay channel \documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$H^{+} \rightarrow c\bar{s}$\end{document} in \documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$t\bar{t}$\end{document} events using pp collisions at \documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$\sqrt{s} = 7\ \mathrm{TeV}$\end{document} with the ATLAS detector 
Aad, G. | Abajyan, T. | Abbott, B. | Abdallah, J. | Abdel Khalek, S. | Abdelalim, A. A. | Abdinov, O. | Aben, R. | Abi, B. | Abolins, M. | AbouZeid, O. S. | Abramowicz, H. | Abreu, H. | Acharya, B. S. | Adamczyk, L. | Adams, D. L. | Addy, T. N. | Adelman, J. | Adomeit, S. | Adragna, P. | Adye, T. | Aefsky, S. | Aguilar-Saavedra, J. A. | Agustoni, M. | Ahlen, S. P. | Ahles, F. | Ahmad, A. | Ahsan, M. | Aielli, G. | Åkesson, T. P. A. | Akimoto, G. | Akimov, A. V. | Alam, M. A. | Albert, J. | Albrand, S. | Aleksa, M. | Aleksandrov, I. N. | Alessandria, F. | Alexa, C. | Alexander, G. | Alexandre, G. | Alexopoulos, T. | Alhroob, M. | Aliev, M. | Alimonti, G. | Alison, J. | Allbrooke, B. M. M. | Allison, L. J. | Allport, P. P. | Allwood-Spiers, S. E. | Almond, J. | Aloisio, A. | Alon, R. | Alonso, A. | Alonso, F. | Altheimer, A. | Alvarez Gonzalez, B. | Alviggi, M. G. | Amako, K. | Amelung, C. | Ammosov, V. V. | Amor Dos Santos, S. P. | Amorim, A. | Amoroso, S. | Amram, N. | Anastopoulos, C. | Ancu, L. S. | Andari, N. | Andeen, T. | Anders, C. F. | Anders, G. | Anderson, K. J. | Andreazza, A. | Andrei, V. | Andrieux, M-L. | Anduaga, X. S. | Angelidakis, S. | Anger, P. | Angerami, A. | Anghinolfi, F. | Anisenkov, A. | Anjos, N. | Annovi, A. | Antonaki, A. | Antonelli, M. | Antonov, A. | Antos, J. | Anulli, F. | Aoki, M. | Aoun, S. | Aperio Bella, L. | Apolle, R. | Arabidze, G. | Aracena, I. | Arai, Y. | Arce, A. T. H. | Arfaoui, S. | Arguin, J-F. | Argyropoulos, S. | Arik, E. | Arik, M. | Armbruster, A. J. | Arnaez, O. | Arnal, V. | Artamonov, A. | Artoni, G. | Arutinov, D. | Asai, S. | Ask, S. | Åsman, B. | Asner, D. | Asquith, L. | Assamagan, K. | Astbury, A. | Atkinson, M. | Aubert, B. | Auge, E. | Augsten, K. | Aurousseau, M. | Avolio, G. | Axen, D. | Azuelos, G. | Azuma, Y. | Baak, M. A. | Baccaglioni, G. | Bacci, C. | Bach, A. M. | Bachacou, H. | Bachas, K. | Backes, M. | Backhaus, M. | Backus Mayes, J. | Badescu, E. | Bagnaia, P. | Bai, Y. | Bailey, D. C. | Bain, T. | Baines, J. T. | Baker, O. K. | Baker, S. | Balek, P. | Banas, E. | Banerjee, P. | Banerjee, Sw. | Banfi, D. | Bangert, A. | Bansal, V. | Bansil, H. S. | Barak, L. | Baranov, S. P. | Barber, T. | Barberio, E. L. | Barberis, D. | Barbero, M. | Bardin, D. Y. | Barillari, T. | Barisonzi, M. | Barklow, T. | Barlow, N. | Barnett, B. M. | Barnett, R. M. | Baroncelli, A. | Barone, G. | Barr, A. J. | Barreiro, F. | Barreiro Guimarães da Costa, J. | Bartoldus, R. | Barton, A. E. | Bartsch, V. | Basye, A. | Bates, R. L. | Batkova, L. | Batley, J. R. | Battaglia, A. | Battistin, M. | Bauer, F. | Bawa, H. S. | Beale, S. | Beau, T. | Beauchemin, P. H. | Beccherle, R. | Bechtle, P. | Beck, H. P. | Becker, K. | Becker, S. | Beckingham, M. | Becks, K. H. | Beddall, A. J. | Beddall, A. | Bedikian, S. | Bednyakov, V. A. | Bee, C. P. | Beemster, L. J. | Begel, M. | Behar Harpaz, S. | Behera, P. K. | Beimforde, M. | Belanger-Champagne, C. | Bell, P. J. | Bell, W. H. | Bella, G. | Bellagamba, L. | Bellomo, M. | Belloni, A. | Beloborodova, O. | Belotskiy, K. | Beltramello, O. | Benary, O. | Benchekroun, D. | Bendtz, K. | Benekos, N. | Benhammou, Y. | Benhar Noccioli, E. | Benitez Garcia, J. A. | Benjamin, D. P. | Benoit, M. | Bensinger, J. R. | Benslama, K. | Bentvelsen, S. | Berge, D. | Bergeaas Kuutmann, E. | Berger, N. | Berghaus, F. | Berglund, E. | Beringer, J. | Bernat, P. | Bernhard, R. | Bernius, C. | Berry, T. | Bertella, C. | Bertin, A. | Bertolucci, F. | Besana, M. I. | Besjes, G. J. | Besson, N. | Bethke, S. | Bhimji, W. | Bianchi, R. M. | Bianchini, L. | Bianco, M. | Biebel, O. | Bieniek, S. P. | Bierwagen, K. | Biesiada, J. | Biglietti, M. | Bilokon, H. | Bindi, M. | Binet, S. | Bingul, A. | Bini, C. | Biscarat, C. | Bittner, B. | Black, C. W. | Black, J. E. | Black, K. M. | Blair, R. E. | Blanchard, J.-B. | Blazek, T. | Bloch, I. | Blocker, C. | Blocki, J. | Blum, W. | Blumenschein, U. | Bobbink, G. J. | Bobrovnikov, V. S. | Bocchetta, S. S. | Bocci, A. | Boddy, C. R. | Boehler, M. | Boek, J. | Boek, T. T. | Boelaert, N. | Bogaerts, J. A. | Bogdanchikov, A. | Bogouch, A. | Bohm, C. | Bohm, J. | Boisvert, V. | Bold, T. | Boldea, V. | Bolnet, N. M. | Bomben, M. | Bona, M. | Boonekamp, M. | Bordoni, S. | Borer, C. | Borisov, A. | Borissov, G. | Borjanovic, I. | Borri, M. | Borroni, S. | Bortfeldt, J. | Bortolotto, V. | Bos, K. | Boscherini, D. | Bosman, M. | Boterenbrood, H. | Bouchami, J. | Boudreau, J. | Bouhova-Thacker, E. V. | Boumediene, D. | Bourdarios, C. | Bousson, N. | Boveia, A. | Boyd, J. | Boyko, I. R. | Bozovic-Jelisavcic, I. | Bracinik, J. | Branchini, P. | Brandt, A. | Brandt, G. | Brandt, O. | Bratzler, U. | Brau, B. | Brau, J. E. | Braun, H. M. | Brazzale, S. F. | Brelier, B. | Bremer, J. | Brendlinger, K. | Brenner, R. | Bressler, S. | Bristow, T. M. | Britton, D. | Brochu, F. M. | Brock, I. | Brock, R. | Broggi, F. | Bromberg, C. | Bronner, J. | Brooijmans, G. | Brooks, T. | Brooks, W. K. | Brown, G. | Bruckman de Renstrom, P. A. | Bruncko, D. | Bruneliere, R. | Brunet, S. | Bruni, A. | Bruni, G. | Bruschi, M. | Bryngemark, L. | Buanes, T. | Buat, Q. | Bucci, F. | Buchanan, J. | Buchholz, P. | Buckingham, R. M. | Buckley, A. G. | Buda, S. I. | Budagov, I. A. | Budick, B. | Büscher, V. | Bugge, L. | Bulekov, O. | Bundock, A. C. | Bunse, M. | Buran, T. | Burckhart, H. | Burdin, S. | Burgess, T. | Burke, S. | Busato, E. | Bussey, P. | Buszello, C. P. | Butler, B. | Butler, J. M. | Buttar, C. M. | Butterworth, J. M. | Buttinger, W. | Byszewski, M. | Cabrera Urbán, S. | Caforio, D. | Cakir, O. | Calafiura, P. | Calderini, G. | Calfayan, P. | Calkins, R. | Caloba, L. P. | Caloi, R. | Calvet, D. | Calvet, S. | Camacho Toro, R. | Camarri, P. | Cameron, D. | Caminada, L. M. | Caminal Armadans, R. | Campana, S. | Campanelli, M. | Canale, V. | Canelli, F. | Canepa, A. | Cantero, J. | Cantrill, R. | Capeans Garrido, M. D. M. | Caprini, I. | Caprini, M. | Capriotti, D. | Capua, M. | Caputo, R. | Cardarelli, R. | Carli, T. | Carlino, G. | Carminati, L. | Caron, S. | Carquin, E. | Carrillo-Montoya, G. D. | Carter, A. A. | Carter, J. R. | Carvalho, J. | Casadei, D. | Casado, M. P. | Cascella, M. | Caso, C. | Castaneda Hernandez, A. M. | Castaneda-Miranda, E. | Castillo Gimenez, V. | Castro, N. F. | Cataldi, G. | Catastini, P. | Catinaccio, A. | Catmore, J. R. | Cattai, A. | Cattani, G. | Caughron, S. | Cavaliere, V. | Cavalleri, P. | Cavalli, D. | Cavalli-Sforza, M. | Cavasinni, V. | Ceradini, F. | Cerqueira, A. S. | Cerri, A. | Cerrito, L. | Cerutti, F. | Cetin, S. A. | Chafaq, A. | Chakraborty, D. | Chalupkova, I. | Chan, K. | Chang, P. | Chapleau, B. | Chapman, J. D. | Chapman, J. W. | Charlton, D. G. | Chavda, V. | Chavez Barajas, C. A. | Cheatham, S. | Chekanov, S. | Chekulaev, S. V. | Chelkov, G. A. | Chelstowska, M. A. | Chen, C. | Chen, H. | Chen, S. | Chen, X. | Chen, Y. | Cheng, Y. | Cheplakov, A. | Cherkaoui El Moursli, R. | Chernyatin, V. | Cheu, E. | Cheung, S. L. | Chevalier, L. | Chiefari, G. | Chikovani, L. | Childers, J. T. | Chilingarov, A. | Chiodini, G. | Chisholm, A. S. | Chislett, R. T. | Chitan, A. | Chizhov, M. V. | Choudalakis, G. | Chouridou, S. | Christidi, I. A. | Christov, A. | Chromek-Burckhart, D. | Chu, M. L. | Chudoba, J. | Ciapetti, G. | Ciftci, A. K. | Ciftci, R. | Cinca, D. | Cindro, V. | Ciocio, A. | Cirilli, M. | Cirkovic, P. | Citron, Z. H. | Citterio, M. | Ciubancan, M. | Clark, A. | Clark, P. J. | Clarke, R. N. | Cleland, W. | Clemens, J. C. | Clement, B. | Clement, C. | Coadou, Y. | Cobal, M. | Coccaro, A. | Cochran, J. | Coffey, L. | Cogan, J. G. | Coggeshall, J. | Colas, J. | Cole, S. | Colijn, A. P. | Collins, N. J. | Collins-Tooth, C. | Collot, J. | Colombo, T. | Colon, G. | Compostella, G. | Conde Muiño, P. | Coniavitis, E. | Conidi, M. C. | Consonni, S. M. | Consorti, V. | Constantinescu, S. | Conta, C. | Conti, G. | Conventi, F. | Cooke, M. | Cooper, B. D. | Cooper-Sarkar, A. M. | Copic, K. | Cornelissen, T. | Corradi, M. | Corriveau, F. | Cortes-Gonzalez, A. | Cortiana, G. | Costa, G. | Costa, M. J. | Costanzo, D. | Côté, D. | Cottin, G. | Courneyea, L. | Cowan, G. | Cox, B. E. | Cranmer, K. | Crescioli, F. | Cristinziani, M. | Crosetti, G. | Crépé-Renaudin, S. | Cuciuc, C.-M. | Cuenca Almenar, C. | Cuhadar Donszelmann, T. | Cummings, J. | Curatolo, M. | Curtis, C. J. | Cuthbert, C. | Cwetanski, P. | Czirr, H. | Czodrowski, P. | Czyczula, Z. | D’Auria, S. | D’Onofrio, M. | D’Orazio, A. | Da Cunha Sargedas De Sousa, M. J. | Da Via, C. | Dabrowski, W. | Dafinca, A. | Dai, T. | Dallaire, F. | Dallapiccola, C. | Dam, M. | Dameri, M. | Damiani, D. S. | Danielsson, H. O. | Dao, V. | Darbo, G. | Darlea, G. L. | Dassoulas, J. A. | Davey, W. | Davidek, T. | Davidson, N. | Davidson, R. | Davies, E. | Davies, M. | Davignon, O. | Davison, A. R. | Davygora, Y. | Dawe, E. | Dawson, I. | Daya-Ishmukhametova, R. K. | De, K. | de Asmundis, R. | De Castro, S. | De Cecco, S. | de Graat, J. | De Groot, N. | de Jong, P. | De La Taille, C. | De la Torre, H. | De Lorenzi, F. | De Nooij, L. | De Pedis, D. | De Salvo, A. | De Sanctis, U. | De Santo, A. | De Vivie De Regie, J. B. | De Zorzi, G. | Dearnaley, W. J. | Debbe, R. | Debenedetti, C. | Dechenaux, B. | Dedovich, D. V. | Degenhardt, J. | Del Peso, J. | Del Prete, T. | Delemontex, T. | Deliyergiyev, M. | Dell’Acqua, A. | Dell’Asta, L. | Della Pietra, M. | della Volpe, D. | Delmastro, M. | Delsart, P. A. | Deluca, C. | Demers, S. | Demichev, M. | Demirkoz, B. | Denisov, S. P. | Derendarz, D. | Derkaoui, J. E. | Derue, F. | Dervan, P. | Desch, K. | Devetak, E. | Deviveiros, P. O. | Dewhurst, A. | DeWilde, B. | Dhaliwal, S. | Dhullipudi, R. | Di Ciaccio, A. | Di Ciaccio, L. | Di Donato, C. | Di Girolamo, A. | Di Girolamo, B. | Di Luise, S. | Di Mattia, A. | Di Micco, B. | Di Nardo, R. | Di Simone, A. | Di Sipio, R. | Diaz, M. A. | Diehl, E. B. | Dietrich, J. | Dietzsch, T. A. | Diglio, S. | Dindar Yagci, K. | Dingfelder, J. | Dinut, F. | Dionisi, C. | Dita, P. | Dita, S. | Dittus, F. | Djama, F. | Djobava, T. | do Vale, M. A. B. | Do Valle Wemans, A. | Doan, T. K. O. | Dobbs, M. | Dobos, D. | Dobson, E. | Dodd, J. | Doglioni, C. | Doherty, T. | Doi, Y. | Dolejsi, J. | Dolezal, Z. | Dolgoshein, B. A. | Dohmae, T. | Donadelli, M. | Donini, J. | Dopke, J. | Doria, A. | Dos Anjos, A. | Dotti, A. | Dova, M. T. | Doxiadis, A. D. | Doyle, A. T. | Dressnandt, N. | Dris, M. | Dubbert, J. | Dube, S. | Dubreuil, E. | Duchovni, E. | Duckeck, G. | Duda, D. | Dudarev, A. | Dudziak, F. | Dührssen, M. | Duerdoth, I. P. | Duflot, L. | Dufour, M-A. | Duguid, L. | Dunford, M. | Duran Yildiz, H. | Duxfield, R. | Dwuznik, M. | Düren, M. | Ebenstein, W. L. | Ebke, J. | Eckweiler, S. | Edson, W. | Edwards, C. A. | Edwards, N. C. | Ehrenfeld, W. | Eifert, T. | Eigen, G. | Einsweiler, K. | Eisenhandler, E. | Ekelof, T. | El Kacimi, M. | Ellert, M. | Elles, S. | Ellinghaus, F. | Ellis, K. | Ellis, N. | Elmsheuser, J. | Elsing, M. | Emeliyanov, D. | Engelmann, R. | Engl, A. | Epp, B. | Erdmann, J. | Ereditato, A. | Eriksson, D. | Ernst, J. | Ernst, M. | Ernwein, J. | Errede, D. | Errede, S. | Ertel, E. | Escalier, M. | Esch, H. | Escobar, C. | Espinal Curull, X. | Esposito, B. | Etienne, F. | Etienvre, A. I. | Etzion, E. | Evangelakou, D. | Evans, H. | Fabbri, L. | Fabre, C. | Fakhrutdinov, R. M. | Falciano, S. | Fang, Y. | Fanti, M. | Farbin, A. | Farilla, A. | Farley, J. | Farooque, T. | Farrell, S. | Farrington, S. M. | Farthouat, P. | Fassi, F. | Fassnacht, P. | Fassouliotis, D. | Fatholahzadeh, B. | Favareto, A. | Fayard, L. | Federic, P. | Fedin, O. L. | Fedorko, W. | Fehling-Kaschek, M. | Feligioni, L. | Feng, C. | Feng, E. J. | Fenyuk, A. B. | Ferencei, J. | Fernando, W. | Ferrag, S. | Ferrando, J. | Ferrara, V. | Ferrari, A. | Ferrari, P. | Ferrari, R. | Ferreira de Lima, D. E. | Ferrer, A. | Ferrere, D. | Ferretti, C. | Ferretto Parodi, A. | Fiascaris, M. | Fiedler, F. | Filipčič, A. | Filthaut, F. | Fincke-Keeler, M. | Fiolhais, M. C. N. | Fiorini, L. | Firan, A. | Fischer, G. | Fisher, M. J. | Fitzgerald, E. A. | Flechl, M. | Fleck, I. | Fleckner, J. | Fleischmann, P. | Fleischmann, S. | Fletcher, G. | Flick, T. | Floderus, A. | Flores Castillo, L. R. | Florez Bustos, A. C. | Flowerdew, M. J. | Fonseca Martin, T. | Formica, A. | Forti, A. | Fortin, D. | Fournier, D. | Fowler, A. J. | Fox, H. | Francavilla, P. | Franchini, M. | Franchino, S. | Francis, D. | Frank, T. | Franklin, M. | Franz, S. | Fraternali, M. | Fratina, S. | French, S. T. | Friedrich, C. | Friedrich, F. | Froidevaux, D. | Frost, J. A. | Fukunaga, C. | Fullana Torregrosa, E. | Fulsom, B. G. | Fuster, J. | Gabaldon, C. | Gabizon, O. | Gadatsch, S. | Gadfort, T. | Gadomski, S. | Gagliardi, G. | Gagnon, P. | Galea, C. | Galhardo, B. | Gallas, E. J. | Gallo, V. | Gallop, B. J. | Gallus, P. | Gan, K. K. | Gao, Y. S. | Gaponenko, A. | Garberson, F. | Garcia-Sciveres, M. | García, C. | García Navarro, J. E. | Gardner, R. W. | Garelli, N. | Garonne, V. | Gatti, C. | Gaudio, G. | Gaur, B. | Gauthier, L. | Gauzzi, P. | Gavrilenko, I. L. | Gay, C. | Gaycken, G. | Gazis, E. N. | Ge, P. | Gecse, Z. | Gee, C. N. P. | Geerts, D. A. A. | Geich-Gimbel, Ch. | Gellerstedt, K. | Gemme, C. | Gemmell, A. | Genest, M. H. | Gentile, S. | George, M. | George, S. | Gerbaudo, D. | Gerlach, P. | Gershon, A. | Geweniger, C. | Ghazlane, H. | Ghodbane, N. | Giacobbe, B. | Giagu, S. | Giangiobbe, V. | Gianotti, F. | Gibbard, B. | Gibson, A. | Gibson, S. M. | Gilchriese, M. | Gillberg, D. | Gillman, A. R. | Gingrich, D. M. | Ginzburg, J. | Giokaris, N. | Giordani, M. P. | Giordano, R. | Giorgi, F. M. | Giovannini, P. | Giraud, P. F. | Giugni, D. | Giunta, M. | Gjelsten, B. K. | Gladilin, L. K. | Glasman, C. | Glatzer, J. | Glazov, A. | Glonti, G. L. | Goddard, J. R. | Godfrey, J. | Godlewski, J. | Goebel, M. | Göpfert, T. | Goeringer, C. | Gössling, C. | Goldfarb, S. | Golling, T. | Golubkov, D. | Gomes, A. | Gomez Fajardo, L. S. | Gonçalo, R. | Goncalves Pinto Firmino Da Costa, J. | Gonella, L. | González de la Hoz, S. | Gonzalez Parra, G. | Gonzalez Silva, M. L. | Gonzalez-Sevilla, S. | Goodson, J. J. | Goossens, L. | Gorbounov, P. A. | Gordon, H. A. | Gorelov, I. | Gorfine, G. | Gorini, B. | Gorini, E. | Gorišek, A. | Gornicki, E. | Goshaw, A. T. | Gosselink, M. | Gostkin, M. I. | Gough Eschrich, I. | Gouighri, M. | Goujdami, D. | Goulette, M. P. | Goussiou, A. G. | Goy, C. | Gozpinar, S. | Grabowska-Bold, I. | Grafström, P. | Grahn, K-J. | Gramstad, E. | Grancagnolo, F. | Grancagnolo, S. | Grassi, V. | Gratchev, V. | Gray, H. M. | Gray, J. A. | Graziani, E. | Grebenyuk, O. G. | Greenshaw, T. | Greenwood, Z. D. | Gregersen, K. | Gregor, I. M. | Grenier, P. | Griffiths, J. | Grigalashvili, N. | Grillo, A. A. | Grimm, K. | Grinstein, S. | Gris, Ph. | Grishkevich, Y. V. | Grivaz, J.-F. | Grohsjean, A. | Gross, E. | Grosse-Knetter, J. | Groth-Jensen, J. | Grybel, K. | Guest, D. | Guicheney, C. | Guido, E. | Guillemin, T. | Guindon, S. | Gul, U. | Gunther, J. | Guo, B. | Guo, J. | Gutierrez, P. | Guttman, N. | Gutzwiller, O. | Guyot, C. | Gwenlan, C. | Gwilliam, C. B. | Haas, A. | Haas, S. | Haber, C. | Hadavand, H. K. | Hadley, D. R. | Haefner, P. | Hahn, F.
A search for a charged Higgs boson (H+) in \documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$t\bar{t}$\end{document} decays is presented, where one of the top quarks decays via t→H+b, followed by H+→ two jets (\documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$c\bar{s}$\end{document}). The other top quark decays to Wb, where the W boson then decays into a lepton (e/μ) and a neutrino. The data were recorded in pp collisions at \documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$\sqrt{s} = 7~\mathrm {TeV}$\end{document} by the ATLAS detector at the LHC in 2011, and correspond to an integrated luminosity of 4.7 fb−1. With no observation of a signal, 95 % confidence level (CL) upper limits are set on the decay branching ratio of top quarks to charged Higgs bosons varying between 5 % and 1 % for H+ masses between 90 GeV and 150 GeV, assuming \documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$\mathcal{B}(H^{+} \rightarrow c\bar{s})=100~\%$\end{document}.
doi:10.1140/epjc/s10052-013-2465-z
PMCID: PMC4370838  PMID: 25814863
25.  Measurement of kT splitting scales in W→ℓν events at \documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$\sqrt{s} = 7\ \mathrm{TeV}$\end{document} with the ATLAS detector 
Aad, G. | Abajyan, T. | Abbott, B. | Abdallah, J. | Abdel Khalek, S. | Abdelalim, A. A. | Abdinov, O. | Aben, R. | Abi, B. | Abolins, M. | AbouZeid, O. S. | Abramowicz, H. | Abreu, H. | Acharya, B. S. | Adamczyk, L. | Adams, D. L. | Addy, T. N. | Adelman, J. | Adomeit, S. | Adragna, P. | Adye, T. | Aefsky, S. | Aguilar-Saavedra, J. A. | Agustoni, M. | Ahlen, S. P. | Ahles, F. | Ahmad, A. | Ahsan, M. | Aielli, G. | Åkesson, T. P. A. | Akimoto, G. | Akimov, A. V. | Alam, M. A. | Albert, J. | Albrand, S. | Aleksa, M. | Aleksandrov, I. N. | Alessandria, F. | Alexa, C. | Alexander, G. | Alexandre, G. | Alexopoulos, T. | Alhroob, M. | Aliev, M. | Alimonti, G. | Alison, J. | Allbrooke, B. M. M. | Allison, L. J. | Allport, P. P. | Allwood-Spiers, S. E. | Almond, J. | Aloisio, A. | Alon, R. | Alonso, A. | Alonso, F. | Altheimer, A. | Alvarez Gonzalez, B. | Alviggi, M. G. | Amako, K. | Amelung, C. | Ammosov, V. V. | Amor Dos Santos, S. P. | Amorim, A. | Amoroso, S. | Amram, N. | Anastopoulos, C. | Ancu, L. S. | Andari, N. | Andeen, T. | Anders, C. F. | Anders, G. | Anderson, K. J. | Andreazza, A. | Andrei, V. | Anduaga, X. S. | Angelidakis, S. | Anger, P. | Angerami, A. | Anghinolfi, F. | Anisenkov, A. | Anjos, N. | Annovi, A. | Antonaki, A. | Antonelli, M. | Antonov, A. | Antos, J. | Anulli, F. | Aoki, M. | Aperio Bella, L. | Apolle, R. | Arabidze, G. | Aracena, I. | Arai, Y. | Arce, A. T. H. | Arfaoui, S. | Arguin, J-F. | Argyropoulos, S. | Arik, E. | Arik, M. | Armbruster, A. J. | Arnaez, O. | Arnal, V. | Artamonov, A. | Artoni, G. | Arutinov, D. | Asai, S. | Ask, S. | Åsman, B. | Asquith, L. | Assamagan, K. | Astalos, R. | Astbury, A. | Atkinson, M. | Auerbach, B. | Auge, E. | Augsten, K. | Aurousseau, M. | Avolio, G. | Axen, D. | Azuelos, G. | Azuma, Y. | Baak, M. A. | Baccaglioni, G. | Bacci, C. | Bach, A. M. | Bachacou, H. | Bachas, K. | Backes, M. | Backhaus, M. | Backus Mayes, J. | Badescu, E. | Bagnaia, P. | Bai, Y. | Bailey, D. C. | Bain, T. | Baines, J. T. | Baker, O. K. | Baker, S. | Balek, P. | Balli, F. | Banas, E. | Banerjee, P. | Banerjee, Sw. | Banfi, D. | Bangert, A. | Bansal, V. | Bansil, H. S. | Barak, L. | Baranov, S. P. | Barber, T. | Barberio, E. L. | Barberis, D. | Barbero, M. | Bardin, D. Y. | Barillari, T. | Barisonzi, M. | Barklow, T. | Barlow, N. | Barnett, B. M. | Barnett, R. M. | Baroncelli, A. | Barone, G. | Barr, A. J. | Barreiro, F. | Barreiro Guimarães da Costa, J. | Bartoldus, R. | Barton, A. E. | Bartsch, V. | Basye, A. | Bates, R. L. | Batkova, L. | Batley, J. R. | Battaglia, A. | Battistin, M. | Bauer, F. | Bawa, H. S. | Beale, S. | Beau, T. | Beauchemin, P. H. | Beccherle, R. | Bechtle, P. | Beck, H. P. | Becker, K. | Becker, S. | Beckingham, M. | Becks, K. H. | Beddall, A. J. | Beddall, A. | Bedikian, S. | Bednyakov, V. A. | Bee, C. P. | Beemster, L. J. | Beermann, T. A. | Begel, M. | Behar Harpaz, S. | Belanger-Champagne, C. | Bell, P. J. | Bell, W. H. | Bella, G. | Bellagamba, L. | Bellomo, M. | Belloni, A. | Beloborodova, O. | Belotskiy, K. | Beltramello, O. | Benary, O. | Benchekroun, D. | Bendtz, K. | Benekos, N. | Benhammou, Y. | Benhar Noccioli, E. | Benitez Garcia, J. A. | Benjamin, D. P. | Benoit, M. | Bensinger, J. R. | Benslama, K. | Bentvelsen, S. | Berge, D. | Bergeaas Kuutmann, E. | Berger, N. | Berghaus, F. | Berglund, E. | Beringer, J. | Bernat, P. | Bernhard, R. | Bernius, C. | Bernlochner, F. U. | Berry, T. | Bertella, C. | Bertin, A. | Bertolucci, F. | Besana, M. I. | Besjes, G. J. | Besson, N. | Bethke, S. | Bhimji, W. | Bianchi, R. M. | Bianchini, L. | Bianco, M. | Biebel, O. | Bieniek, S. P. | Bierwagen, K. | Biesiada, J. | Biglietti, M. | Bilokon, H. | Bindi, M. | Binet, S. | Bingul, A. | Bini, C. | Biscarat, C. | Bittner, B. | Black, C. W. | Black, J. E. | Black, K. M. | Blair, R. E. | Blanchard, J.-B. | Blazek, T. | Bloch, I. | Blocker, C. | Blocki, J. | Blum, W. | Blumenschein, U. | Bobbink, G. J. | Bobrovnikov, V. S. | Bocchetta, S. S. | Bocci, A. | Boddy, C. R. | Boehler, M. | Boek, J. | Boek, T. T. | Boelaert, N. | Bogaerts, J. A. | Bogdanchikov, A. | Bogouch, A. | Bohm, C. | Bohm, J. | Boisvert, V. | Bold, T. | Boldea, V. | Bolnet, N. M. | Bomben, M. | Bona, M. | Boonekamp, M. | Bordoni, S. | Borer, C. | Borisov, A. | Borissov, G. | Borjanovic, I. | Borri, M. | Borroni, S. | Bortfeldt, J. | Bortolotto, V. | Bos, K. | Boscherini, D. | Bosman, M. | Boterenbrood, H. | Bouchami, J. | Boudreau, J. | Bouhova-Thacker, E. V. | Boumediene, D. | Bourdarios, C. | Bousson, N. | Boutouil, S. | Boveia, A. | Boyd, J. | Boyko, I. R. | Bozovic-Jelisavcic, I. | Bracinik, J. | Branchini, P. | Brandt, A. | Brandt, G. | Brandt, O. | Bratzler, U. | Brau, B. | Brau, J. E. | Braun, H. M. | Brazzale, S. F. | Brelier, B. | Bremer, J. | Brendlinger, K. | Brenner, R. | Bressler, S. | Bristow, T. M. | Britton, D. | Brochu, F. M. | Brock, I. | Brock, R. | Broggi, F. | Bromberg, C. | Bronner, J. | Brooijmans, G. | Brooks, T. | Brooks, W. K. | Brown, G. | Bruckman de Renstrom, P. A. | Bruncko, D. | Bruneliere, R. | Brunet, S. | Bruni, A. | Bruni, G. | Bruschi, M. | Bryngemark, L. | Buanes, T. | Buat, Q. | Bucci, F. | Buchanan, J. | Buchholz, P. | Buckingham, R. M. | Buckley, A. G. | Buda, S. I. | Budagov, I. A. | Budick, B. | Bugge, L. | Bulekov, O. | Bundock, A. C. | Bunse, M. | Buran, T. | Burckhart, H. | Burdin, S. | Burgess, T. | Burke, S. | Busato, E. | Büscher, V. | Bussey, P. | Buszello, C. P. | Butler, B. | Butler, J. M. | Buttar, C. M. | Butterworth, J. M. | Buttinger, W. | Byszewski, M. | Cabrera Urbán, S. | Caforio, D. | Cakir, O. | Calafiura, P. | Calderini, G. | Calfayan, P. | Calkins, R. | Caloba, L. P. | Caloi, R. | Calvet, D. | Calvet, S. | Camacho Toro, R. | Camarri, P. | Cameron, D. | Caminada, L. M. | Caminal Armadans, R. | Campana, S. | Campanelli, M. | Canale, V. | Canelli, F. | Canepa, A. | Cantero, J. | Cantrill, R. | Cao, T. | Capeans Garrido, M. D. M. | Caprini, I. | Caprini, M. | Capriotti, D. | Capua, M. | Caputo, R. | Cardarelli, R. | Carli, T. | Carlino, G. | Carminati, L. | Caron, S. | Carquin, E. | Carrillo-Montoya, G. D. | Carter, A. A. | Carter, J. R. | Carvalho, J. | Casadei, D. | Casado, M. P. | Cascella, M. | Caso, C. | Castaneda-Miranda, E. | Castillo Gimenez, V. | Castro, N. F. | Cataldi, G. | Catastini, P. | Catinaccio, A. | Catmore, J. R. | Cattai, A. | Cattani, G. | Caughron, S. | Cavaliere, V. | Cavalleri, P. | Cavalli, D. | Cavalli-Sforza, M. | Cavasinni, V. | Ceradini, F. | Cerqueira, A. S. | Cerri, A. | Cerrito, L. | Cerutti, F. | Cetin, S. A. | Chafaq, A. | Chakraborty, D. | Chalupkova, I. | Chan, K. | Chang, P. | Chapleau, B. | Chapman, J. D. | Chapman, J. W. | Charlton, D. G. | Chavda, V. | Chavez Barajas, C. A. | Cheatham, S. | Chekanov, S. | Chekulaev, S. V. | Chelkov, G. A. | Chelstowska, M. A. | Chen, C. | Chen, H. | Chen, S. | Chen, X. | Chen, Y. | Cheng, Y. | Cheplakov, A. | Cherkaoui El Moursli, R. | Chernyatin, V. | Cheu, E. | Cheung, S. L. | Chevalier, L. | Chiefari, G. | Chikovani, L. | Childers, J. T. | Chilingarov, A. | Chiodini, G. | Chisholm, A. S. | Chislett, R. T. | Chitan, A. | Chizhov, M. V. | Choudalakis, G. | Chouridou, S. | Chow, B. K. B. | Christidi, I. A. | Christov, A. | Chromek-Burckhart, D. | Chu, M. L. | Chudoba, J. | Ciapetti, G. | Ciftci, A. K. | Ciftci, R. | Cinca, D. | Cindro, V. | Ciocio, A. | Cirilli, M. | Cirkovic, P. | Citron, Z. H. | Citterio, M. | Ciubancan, M. | Clark, A. | Clark, P. J. | Clarke, R. N. | Cleland, W. | Clemens, J. C. | Clement, B. | Clement, C. | Coadou, Y. | Cobal, M. | Coccaro, A. | Cochran, J. | Coffey, L. | Cogan, J. G. | Coggeshall, J. | Colas, J. | Cole, S. | Colijn, A. P. | Collins, N. J. | Collins-Tooth, C. | Collot, J. | Colombo, T. | Colon, G. | Compostella, G. | Conde Muiño, P. | Coniavitis, E. | Conidi, M. C. | Consonni, S. M. | Consorti, V. | Constantinescu, S. | Conta, C. | Conti, G. | Conventi, F. | Cooke, M. | Cooper, B. D. | Cooper-Sarkar, A. M. | Cooper-Smith, N. J. | Copic, K. | Cornelissen, T. | Corradi, M. | Corriveau, F. | Cortes-Gonzalez, A. | Cortiana, G. | Costa, G. | Costa, M. J. | Costanzo, D. | Côté, D. | Cottin, G. | Courneyea, L. | Cowan, G. | Cox, B. E. | Cranmer, K. | Crépé-Renaudin, S. | Crescioli, F. | Cristinziani, M. | Crosetti, G. | Cuciuc, C.-M. | Cuenca Almenar, C. | Cuhadar Donszelmann, T. | Cummings, J. | Curatolo, M. | Curtis, C. J. | Cuthbert, C. | Cwetanski, P. | Czirr, H. | Czodrowski, P. | Czyczula, Z. | D’Auria, S. | D’Onofrio, M. | D’Orazio, A. | Da Cunha Sargedas De Sousa, M. J. | Da Via, C. | Dabrowski, W. | Dafinca, A. | Dai, T. | Dallaire, F. | Dallapiccola, C. | Dam, M. | Damiani, D. S. | Danielsson, H. O. | Dao, V. | Darbo, G. | Darlea, G. L. | Darmora, S. | Dassoulas, J. A. | Davey, W. | Davidek, T. | Davidson, N. | Davidson, R. | Davies, E. | Davies, M. | Davignon, O. | Davison, A. R. | Davygora, Y. | Dawe, E. | Dawson, I. | Daya-Ishmukhametova, R. K. | De, K. | de Asmundis, R. | De Castro, S. | De Cecco, S. | de Graat, J. | De Groot, N. | de Jong, P. | De La Taille, C. | De la Torre, H. | De Lorenzi, F. | De Nooij, L. | De Pedis, D. | De Salvo, A. | De Sanctis, U. | De Santo, A. | De Vivie De Regie, J. B. | De Zorzi, G. | Dearnaley, W. J. | Debbe, R. | Debenedetti, C. | Dechenaux, B. | Dedovich, D. V. | Degenhardt, J. | Del Peso, J. | Del Prete, T. | Delemontex, T. | Deliyergiyev, M. | Dell’Acqua, A. | Dell’Asta, L. | Della Pietra, M. | della Volpe, D. | Delmastro, M. | Delsart, P. A. | Deluca, C. | Demers, S. | Demichev, M. | Demirkoz, B. | Denisov, S. P. | Derendarz, D. | Derkaoui, J. E. | Derue, F. | Dervan, P. | Desch, K. | Deviveiros, P. O. | Dewhurst, A. | DeWilde, B. | Dhaliwal, S. | Dhullipudi, R. | Di Ciaccio, A. | Di Ciaccio, L. | Di Donato, C. | Di Girolamo, A. | Di Girolamo, B. | Di Luise, S. | Di Mattia, A. | Di Micco, B. | Di Nardo, R. | Di Simone, A. | Di Sipio, R. | Diaz, M. A. | Diehl, E. B. | Dietrich, J. | Dietzsch, T. A. | Diglio, S. | Dindar Yagci, K. | Dingfelder, J. | Dinut, F. | Dionisi, C. | Dita, P. | Dita, S. | Dittus, F. | Djama, F. | Djobava, T. | do Vale, M. A. B. | Do Valle Wemans, A. | Doan, T. K. O. | Dobbs, M. | Dobos, D. | Dobson, E. | Dodd, J. | Doglioni, C. | Doherty, T. | Dohmae, T. | Doi, Y. | Dolejsi, J. | Dolezal, Z. | Dolgoshein, B. A. | Donadelli, M. | Donini, J. | Dopke, J. | Doria, A. | Dos Anjos, A. | Dotti, A. | Dova, M. T. | Doyle, A. T. | Dressnandt, N. | Dris, M. | Dubbert, J. | Dube, S. | Dubreuil, E. | Duchovni, E. | Duckeck, G. | Duda, D. | Dudarev, A. | Dudziak, F. | Duerdoth, I. P. | Duflot, L. | Dufour, M-A. | Duguid, L. | Dührssen, M. | Dunford, M. | Duran Yildiz, H. | Düren, M. | Duxfield, R. | Dwuznik, M. | Ebenstein, W. L. | Ebke, J. | Eckweiler, S. | Edson, W. | Edwards, C. A. | Edwards, N. C. | Ehrenfeld, W. | Eifert, T. | Eigen, G. | Einsweiler, K. | Eisenhandler, E. | Ekelof, T. | El Kacimi, M. | Ellert, M. | Elles, S. | Ellinghaus, F. | Ellis, K. | Ellis, N. | Elmsheuser, J. | Elsing, M. | Emeliyanov, D. | Enari, Y. | Engelmann, R. | Engl, A. | Epp, B. | Erdmann, J. | Ereditato, A. | Eriksson, D. | Ernst, J. | Ernst, M. | Ernwein, J. | Errede, D. | Errede, S. | Ertel, E. | Escalier, M. | Esch, H. | Escobar, C. | Espinal Curull, X. | Esposito, B. | Etienne, F. | Etienvre, A. I. | Etzion, E. | Evangelakou, D. | Evans, H. | Fabbri, L. | Fabre, C. | Facini, G. | Fakhrutdinov, R. M. | Falciano, S. | Fang, Y. | Fanti, M. | Farbin, A. | Farilla, A. | Farley, J. | Farooque, T. | Farrell, S. | Farrington, S. M. | Farthouat, P. | Fassi, F. | Fassnacht, P. | Fassouliotis, D. | Fatholahzadeh, B. | Favareto, A. | Fayard, L. | Federic, P. | Fedin, O. L. | Fedorko, W. | Fehling-Kaschek, M. | Feligioni, L. | Feng, C. | Feng, E. J. | Fenyuk, A. B. | Ferencei, J. | Fernando, W. | Ferrag, S. | Ferrando, J. | Ferrara, V. | Ferrari, A. | Ferrari, P. | Ferrari, R. | Ferreira de Lima, D. E. | Ferrer, A. | Ferrere, D. | Ferretti, C. | Ferretto Parodi, A. | Fiascaris, M. | Fiedler, F. | Filipčič, A. | Filthaut, F. | Fincke-Keeler, M. | Fiolhais, M. C. N. | Fiorini, L. | Firan, A. | Fischer, J. | Fisher, M. J. | Fitzgerald, E. A. | Flechl, M. | Fleck, I. | Fleischmann, P. | Fleischmann, S. | Fletcher, G. T. | Fletcher, G. | Flick, T. | Floderus, A. | Flores Castillo, L. R. | Florez Bustos, A. C. | Flowerdew, M. J. | Fonseca Martin, T. | Formica, A. | Forti, A. | Fortin, D. | Fournier, D. | Fowler, A. J. | Fox, H. | Francavilla, P. | Franchini, M. | Franchino, S. | Francis, D. | Frank, T. | Franklin, M. | Franz, S. | Fraternali, M. | Fratina, S. | French, S. T. | Friedrich, C. | Friedrich, F. | Froidevaux, D. | Frost, J. A. | Fukunaga, C. | Fullana Torregrosa, E. | Fulsom, B. G. | Fuster, J. | Gabaldon, C. | Gabizon, O. | Gadatsch, S. | Gadfort, T. | Gadomski, S. | Gagliardi, G. | Gagnon, P. | Galea, C. | Galhardo, B. | Gallas, E. J. | Gallo, V. | Gallop, B. J. | Gallus, P. | Gan, K. K. | Gandrajula, R. P. | Gao, Y. S. | Gaponenko, A. | Garay Walls, F. M. | Garberson, F. | García, C. | García Navarro, J. E. | Garcia-Sciveres, M. | Gardner, R. W. | Garelli, N. | Garonne, V. | Gatti, C. | Gaudio, G. | Gaur, B. | Gauthier, L. | Gauzzi, P. | Gavrilenko, I. L. | Gay, C. | Gaycken, G. | Gazis, E. N. | Ge, P. | Gecse, Z. | Gee, C. N. P. | Geerts, D. A. A. | Geich-Gimbel, Ch. |