Revealing neutral bremsstrahlung in two-phase argon electroluminescence

Proportional electroluminescence (EL) in noble gases has long been used in two-phase detectors for dark matter search, to record ionization signals induced by particle scattering in the noble-gas liquid (S2 signals). Until recently, it was believed that proportional electroluminescence was fully due to VUV emission of noble gas excimers produced in atomic collisions with excited atoms, the latter being in turn produced by drifting electrons. In this work we consider an additional mechanism of proportional electroluminescence, namely that of bremsstrahlung of drifting electrons scattered on neutral atoms (so-called neutral bremsstrahlung); it is systemically studied here both theoretically and experimentally. In particular, the absolute EL yield has for the first time been measured in pure gaseous argon in the two-phase mode, using a dedicated two-phase detector with EL gap optically read out by cryogenic PMTs and SiPMs. We show that the neutral bremsstrahlung effect can explain two intriguing observations in EL radiation: that of the substantial contribution of the non-VUV spectral component, extending from the UV to NIR, and that of the photon emission at lower electric fields, below the Ar excitation threshold. Possible applications of neutral bremsstrahlung effect in two-phase dark matter detectors are discussed.Comment: 14 pages, 21 figures. Version3: new several paragraphs and references and a new figure adde

Further studies of proportional electroluminescence in two-phase argon

The study of proportional electroluminescence in two-phase argon is relevant in the field of noble-gas liquid detectors for dark matter search and low-energy neutrino experiments. In this work, we continued to study proportional electroluminescence (EL) in two-phase argon doped with a minor (9 ppm) admixture of nitrogen, in the VUV, UV and visible spectral ranges. We confirmed the effect of enhancement of the EL yield, as well as the presence of non-VUV component in addition to that of VUV, in proportional electroluminescence in two-phase Ar. On the other hand, the contribution of non-VUV component determined here within the model of N2 emission in the UV, turned out to be insufficient to explain the EL yield enhancement effect. Accordingly, the problem of proportional electroluminescence in two-phase Ar remains unresolved.Comment: 12 pages, 7 figures, 1 table. Presented at Instrumentation for Colliding Beam Physics Conference (INSTR17). To be published in JINS

Parameters of internal gravity waves in the mesosphere-lower thermosphere region derived from meteor radar wind measurements

International audienceA procedure of revealing parameters of internal gravity waves from meteor radar wind measurements is presented. The method is based on dividing the measuring volume into different parts and, using wavelet analysis, calculating the phase progression of frequency peaks in the vertical and horizontal direction. Thus, the distribution of vertical and horizontal wavelengths and directions of IGW energy propagation, using meteor radar data, has been obtained. The method was applied to a 4-month data set obtained in July and August, 1998 and 1999. As expected, the majority of waves have been found to propagate upwards, although a considerable number seem to propagate downwards as well. High-frequency (intrinsic periods T* of less than 2 h) waves are dominating. The distribution of waves over the course of an average day is only weakly structured, with weak maxima in the morning and evening

Pre- and postcapillary pulmonary hypertension in dogs: Circulating biomarkers

Background: Pulmonary hypertension (PH) in dogs is a syndrome that could be primary or secondary due to pulmonary disease, pulmonary thromboembolism, heartworm disease, and heart failure. Due to the inability of right heart catheterization in veterinary patients, there is a lack of differential criteria between PH forms. In some acute cases, it is impossible to provide a full EchoCG or catheterization study. In this situation, circulating markers may be useful to discover the possible mechanism of PH form and provide specific therapy.Aim: Following all previous data in human and veterinary studies, we assumed that plasm concentration of serotonin, endothelin-1 (ET-1), and vascular endothelial growth factor D (VEGF-D) would show a predominance in affected part of pulmonary circulation.Methods: We studied 59 small-breed dogs of different sexes and ages. Groups were formed according to a primary pathology: healthy dogs (n = 8); dogs with myxomatous mitral valve disease (MMVD) and postcapillary PH (PostPH, n = 23); dogs with MMVD and precapillary PH (PrePH, n = 28). Animals in the study were diagnosed with the primary disease by standard echocardiographic methods and algorithms. Blood samples were collected at the moment of presentation and frozen in a −80°C fridge. For biochemistry analysis, we used species-specific ELISA kits, provided by Cloud-Clone Corp. (USA). The tests were provided by the means of Almazov National Medical Research Center, IEM laboratory.Results: Dogs with EchoCG-proved PostPH had a higher concentration of VEGF-D in comparison to control and PrePH (р <0.001, for both). There was no difference between the control and PrePH groups (р >0.05). ET-1 was higher in PrePH in comparison to PostPH and control dogs (р <0.001, for both). In addition, there was no difference between the control and PostPH groups (р >0.05). Serotonin concertation did not have a difference between controls and PostPH. However, it was higher in PrePH than in control (р <0.033) and PostPH group (р <0.006). Receiver operating curve analysis showed that plasma concentrations of ET-1 (0.99) and VEGF-D (0.92) had high effectiveness in the differentiation of PostPH and PrePH.Conclusion: This study showed a correlation between circulating biomarkers (serotonin, ET-1, and VEGF-D). We found a connection between ET-1 and right-sided heart failure as well as VEGF-D and left heart failure in the PH context

Robotic surgery training and performance

Background: To understand the process of skill acquisition in robotic surgery and to allow useful real-time feedback to surgeons and trainees in future generations of robotic surgical systems, robotic surgical skills should be determined with objective variables. The aim of this study was to assess skill acquisition through a training protocol, and to identify variables for the quantification of proficiency. Methods: Seven novice users of the da Vinci Surgical System engaged in 4 weeks of training that involved practicing three bimanual tasks with the system. Seven variables were determined for assessing speed of performance, bimanual coordination, and muscular activation. These values were compared before and after training. Results: Significant improvements were observed through training in five variables. Bimanual coordination showed differences between the surgical tasks used, whereas muscular activation patterns showed better muscle use through training. The subjects also performed the surgical tasks considerably faster within the first two to three training sessions. Conclusions: The study objectively demonstrated that the novice users could learn to perform surgical tasks faster and with more consistency, better bimanual dexterity, and better muscular activity utilization. The variables examined showed great promise as objective indicators of proficiency and skill acquisition in robotic surgery

Objective assessment of proficiency with bimanual inanimate tasks in robotic laparoscopy

Purpose: Development of objective criteria and optimum training protocols are priorities for robotic laparoscopy. However, studies that have attempted to objectify learning have been limited due to lack of task complexity and absence of comparisons between experts and novices. Our aim was to address these limitations and assess proficiency in robotic laparoscopy using bimanual inanimate tasks. Materials and Methods: Six experts and 18 novice users of the da Vinci surgical system (Innovative Surgical, Sunnyvale, CA) performed three bimanual surgical manipulations, two of them in opposite directions, for a total of five different test tasks. During each task, elapsed time and kinematics with respect to the instrument tips were measured and a bimanual coordination analysis was conducted to assess the relationship between the simultaneous movements of both arms. Specifically, task completion time, total traveling distance of the instrument tips, and mean absolute relative phase—a variable for the assessment of bimanual coordination—were calculated for each task and compared between groups. Results: The experts showed significantly shorter task completion times for all tasks (p\u3c 0.05). Significantly higher mean absolute relative phase values were observed for the experts in two tasks (p\u3c 0.05). There were no significant differences regarding total travel distance. Conclusion: Expert users of the da Vinci surgical system performed the designed surgical tasks faster and with higher bimanual dexterity than novices. Bimanual coordination analysis and the tasks used in this study show promise for becoming important components of the objective criteria needed to quantify proficiency in robotic laparoscopy