Hadron Mass Spectrum from Lattice QCD

Finite temperature lattice simulations of quantum chromodynamics (QCD) are sensitive to the hadronic mass spectrum for temperatures below the "critical" temperature T_c ~ 160 MeV. We show that a recent precision determination of the QCD trace anomaly shows evidence for the existence of a large number of hadron states beyond those known from experiment. The lattice results are well represented by an exponentially growing hadron mass spectrum up to a temperature T = 155 MeV. Using simple parametrizations we show how one may estimate the total spectral weight in these yet undermined states

On-line measurement of partial discharges in high voltage rotating machines.

The on-line condition monitoring of rotating machines is given paramount importance, particularly in Oils and Gas industries where the financial implications of machine shutdown is very high. This project work was directed towards the on-line condition monitoring of high voltage rotating machines by detection of partial discharges (PD) which are indicative of stator insulation degradation. Partial discharge manifests itself in various forms which can be detected using various electrical and non-electrical techniques. The electrical method of detecting small current pulses generated by PD using a Rogowski coil as a sensor has been investigated in this work. Dowding & Mills, who are commercially involved in the condition monitoring of rotating machines, currently use a system called StatorMonotor® for PD detection. The research is intended to develop a new partial discharge detection system that will replace the existing system which is getting obsolete. A three phase partial discharge detection unit was specified, designed and developed that is capable of filtering, amplifying and digitising the discharge signals. The associated data acquisition software was developed using LabVIEW software that was capable of acquiring, displaying and storing the discharge signals. Additional software programs were devised to investigate the removal of external noise. A data compression algorithm was developed to store the discharge data in an efficient manner; also ensuring the backward compatibility to the existing analysis software. Tests were performed in laboratory and on machines on-site and the results are presented. Finally, the data acquisition (DAQ) cards that used the PCMCIA bus was replaced with new USB based DAQ cards with the software modified accordingly. The three phase data acquisition unit developed as a result of this project has produced encouraging results and will be implemented in an industrial environment to evaluate and benchmark its performance with the existing system. Most importantly, a hardware data acquisition platform for the detection of PD pulses has been established within the company which is easily maintainable and expandable to suit any future requirements

Interpreting the bounds on Solar Dark Matter induced muons at Super-Kamiokande in the light of CDMS results

We consider the recent limits on dark matter - nucleon elastic scattering cross section from the analysis of CDMS II collaboration using the two signal events observed in CDMS experiment. With these limits we try to interpret the Super-Kamiokande (SK) bounds on the detection rates of up-going muons induced by the neutrinos that are produced in the sun from the decay of annihilation products of dark matter (WIMPs) captured in the solar core. Calculated rates of up-going muons for different annihilation channels at SK using CDMS bounds are found to be orders below the predicted upper limits of such up-going muon rates at SK. Thus there exists room for enhancement (boost) of the calculated rates using CDMS limits for interpreting SK bounds. Such a feature is expected to represent the PAMELA data with the current CDMS limits. We also show the dependence of such a possible enhancement factor (boost) on WIMP mass for different WIMP annihilation channels.Comment: 7 pages, 6 figure

Drainage Morphology Approach For Water Resources Development of Sub Watershed in Krishna Basin

The morphometric analysis of study area has been carried out using Arc GIS software. The study area covers 3035 sq.km. The drainage network was delineated using SOI topographical map of no. 47 K – 5, 6, 7, 8, 10, 11, 12, 47 L - 9 on the scale 1:50,000. Morphological characterized of the drainage line as appear in shape ,size, number, order, length, Dd, Sf, Rb, Fs, T, Rc are derived to trace its usefulness for surface development . The present study involves Geographic Information System (GIS) analysis technique to evaluate and compare linear relief and aerial morphometry of Yerala watershed of Krishna River. Yerala watershed is basically 7th order drainage and is mainly dendritic to sub dendritic. Drainage density and texture of the drainage basin is 6.89 km/km2, 18.60 respectively. The drainage frequency of Yerala watersheds is 1.96 where as the bifurcation ratio ranges from 2 to 11. Hence from the study it can be conclude that GIS technique proves to be competent tool in morphometric analysis

An audit on the clinical and laboratory profile of patients with different variants of Guillain-Barre syndrome and effect of various treatment strategies on their recovery

Background: Guillain-Barre syndrome (GBS) is an immune-mediated disorder of the peripheral nervous system, causing muscle weakness, paralysis, and sensory deficits. Its treatment mainly involves supportive care, immunomodulatory therapies such as intravenous immunoglobulin (IVIg) and plasma exchange (PE), and rehabilitation. Several randomized controlled trials (RCTs) and meta-analyses have evaluated the efficacy and safety of apheresis in GBS, but the results have been conflicting and limited by methodological issues. Methods: This is a retrospective study with a sample of 30 patients carried out at neurology OPD of tertiary care centre in Pune, Maharashtra over a period of 32 months from July 2020 and February 2023. Patients were followed up for six months, and their outcomes were compared in terms of the improvement of clinical disability scores, the need for mechanical ventilation, and the time to recovery of walking ability and other functional outcomes. Results: Apheresis treatment significantly improved the clinical disability scores and NCV recovery of patients with GBS in comparison to IVIg and corticosteroids. Moreover, patients who received apheresis treatment showed a shorter time to recovery of walking ability and other functional outcomes than those who did not. Symptomatic differences were seen between patients with different subtypes of GBS, but there was no difference in the response to apheresis or IVIg between subtypes. Conclusions: Treatment with apheresis should be considered in patients not responding to conservative management. Earlier treatment with apheresis has shown to have good clinical and electrophysiological outcomes regardless of the GBS subtype

Multidirectional ECG Coherent Optimal Timing of Defibrillation Shocks

A method for of delivering a defibrillation shock to a heart at an optimal time to stop ventricular fibrillation which involves obtaining an electrocardiogram of a heart in at least two directions, determining a time-coherency of the electrocardiogram based upon each of the at least two directions, and computing a tracking function from the time-coherency. An optimal time to apply a defibrillation shock to the heart is determined by locating a local maximum on the tracking function. The method utilizes spacia characteristics of the ventricular fibrillation. The method can be incorporated into implantable cardioverter defibrillators utilizing existing hardware technology