Aggregate morphing of self-aligning soft active disks in semi-confined geometry.

We study the dependence of alignment and confinement on the aggregate morphology of self-aligning soft disks(particles) in a planer box (two dimensional) geometry confined along y direction using Langevin dynamics simulations. We show that when the box width decreases, the aggregate wall accumulation becomes non-uniform and displays non-monotonic behaviour in terms of phase behavior and height of these aggregates with an increase in alignment strength. Additionally, we identify two distinct categories of wall aggregates: layered and non-layered structures each exhibiting distinct local structural properties.

Level of Satisfaction Towards Healthcare Services in Patients Attending Psychiatry Outpatient Department of a Tertiary Care Hospital in Eastern India.

Background: Patients' satisfaction with healthcare services contributes to their compliance with the treatment and thus impacts their health. Therefore, patient satisfaction is increasingly being used as an indicator of health system performance in a country. Though several studies have been reported from different parts of India, most did not include psychiatric patients.

Association of Central serous chorioretinopathy with type of personality, anxiety and depression.

Purpose: Central serous chorioretinopathy (CSCR) a relatively common cause of visual impairment, which is characterized by subretinal fluid accumulation in the macula and is more common in middle-aged males. Various risk factors have been reported in literature, among which substantial role of psychological factors is cited. Our aim was to look for the prevalence and association of the psychiatric factors in CSCR patients and to compare them with other non-chorioretinal ocular pathologies.

Collective behavior of soft self-propelled disks with rotational inertia.

We investigate collective properties of a large system of soft self-propelled inertial disks with active Langevin dynamics simulation in two dimensions. Rotational inertia of the disks is found to favor motility induced phase separation (MIPS), due to increased effective persistence of the disks. The MIPS phase diagram in the parameter space of rotational inertia and disk softness is reported over a range of values of translation inertia and self-propulsion strength of the disks.

Reentrant phase separation of a sparse collection of nonreciprocally aligning self-propelled disks.

We study a model of aligning self-propelled disks that nonreciprocally reorient the self-propulsion directions along the interparticle separation and towards the other disks. In the limit of small inertia and large softness, where conventional motility-induced phase separation is absent, we demonstrate that the homogeneous system at a small area fraction phase-separates into clusters and a low-density phase that, eventually, reenters the homogeneous phase with a monotonic increase in alignment strength. The disks inside the clusters move with a finite space-dependent speed, constantly shuttling between clusters through the surrounding low-density homogeneous phase while maintaining the hexatic structure properties within the clusters.

Motility-induced phase separation of self-propelled soft inertial disks.

The phase diagram of the phenomenon of motility-induced phase separation (MIPS) for a collection of self-propelled interacting disks over a large inertial range is explored using active Langevin dynamics simulation with particular emphasis on disk softness and effective size. It is shown that the parabola-like phase boundary between the homogeneous and MIPS states in the semi-log space of disk softness and effective size moves towards the hard disk limit with increase in inertia, before complete disappearance in the limit of large inertia. With increase in effective size of the disks, re-entrant phase separation, that is the system phase-separating from a homogeneous phase and eventually re-entering the homogeneous phase, is reported.

Beneficial aspects of autism stemming from enhanced visuospatial skills: Result from a comparative study in India.

Background: Autism spectrum disorder (ASD) is a relatively common neurodevelopmental disorder characterized by impairments in social interaction and communication, associated with restrictive and repetitive behaviors, interests, and activities. However, there are various positive character traits among individuals suffering from ASD - they are generally honest, decisive, and nonjudgmental. They are also reported to have excellent attention to details, which have been ascribed to their enhanced visual search skills.

Selective synthesis of DC carbon arc-generated carbon nanotube and layered-graphene and the associated mechanism.

Herein we report how an anode is eroded and the eroded mass is deposited on the cathode surface at different arc currents ([Formula: see text]) in a DC carbon arc discharge using roughly oriented graphite (ROG) as electrodes. It was found that the nature of anode erosion critically depends on [Formula: see text] and has profound effects on the morphology of the as-synthesized cathode deposits (CDs), the conversion efficiency of the system to form the CDs and their compositions. By characterizing the as-synthesized CDs in their totality by transmission electron microscopy, Raman spectroscopy, and x-ray diffraction it was found that there exists a critical value of [Formula: see text] below which the arc remains constricted, and above which the arc becomes intense.

Impact of COVID-19 on Obsessive Compulsive Disorder (OCD).

Handwashing is now considered as one of the best safety measures to prevent COVID-19 infection. The effect of excessive handwashing for health on obsessive compulsive disorder (OCD) patients who are already having washing compulsion is not known. Furthermore, the fear of contamination of COVID-19 in patients who already have obsession of contamination is not known.

Phase transition and emergence of active temperature in an active Brownian system in underdamped background.

We explore the role of inertia in the properties of active Brownian particles (ABPs) immersed in an underdamped background in two dimensions using Langevin dynamics computer simulation. Similar to an equilibrium two-dimensional passive interacting particle system, the system of ABPs transits from a liquid phase to a solid phase with the change in the coupling parameter, which is the ratio of interaction potential energy and thermal energy of the background solvent. Important qualitative and quantitative differences are found in the liquid-solid phase transition with increasing strength of activity as compared to those found in the conventional overdamped background limit.

Antimicrobial properties of uncapped silver nanoparticles synthesized by DC arc thermal plasma technique.

We, herein, report the antimicrobial properties of uncapped silver nanoparticles for a Gram positive model organism, Bacillus subtilis. Uncapped silver nanoparticles have been prepared using less-explored DC arc thermal plasma technique by considering its large scale generation capability. It is observed that the resultant nanoparticles show size as well as optical property dependent antimicrobial effect.