Search

Your search keyword '"Pandey, Prakash"' showing total 128 results
Start Over Author "Pandey, Prakash"
128 results on '"Pandey, Prakash"'

1. PH-NODE: A DFPT and finite displacement supercell based python code for searching nodes in topological phononic materials

Author

Pandey, Prakash and Pandey, Sudhir K.

Subjects
Condensed Matter - Materials Science
Abstract

Exploring the topological physics of phonons is fundamentally important for understanding various practical applications. Here, we present a density-functional perturbation theory and finite displacement supercell based Python 3 software package called PH-NODE for efficiently computing phonon nodes present in real material through a first-principle approach. The present version of the code is interfaced with the WIEN2k, Elk, and ABINIT packages. In order to benchmark the code, four different types of materials are considered, which include (i) FeSi, a well-known double-Weyl point; (ii) LiCaAs, a half-Heusler single-type-I Weyl topological phonon (TP); and (iii) ScZn, coexisting nodal-line and nodal-ring TPs; (iv) TiS, six pairs of bulk Weyl nodes. In FeSi, the node points are found at ${\Gamma}$(0, 0, 0) and R(0.5, 0.5, 0.5) high symmetric points. Also, there are 21 energy values at which the node points are situated, corresponding to the full Brillouin Zone. For LiCaAs, the previously reported literature claims that there is a node point along the W-X high symmetry direction between the highest longitudinal acoustic and the lowest transverse optical branch, while in our DFT calculations, a gap of 0.17 meV is found. Furthermore, ScZn hosts six nodal-ring TPs phonons at the boundary planes of the Brillouin Zone in the vicinity of the M high-symmetric point. In addition to this, straight-line TPs are also found along the ${\Gamma}$-X and ${\Gamma}$-R high symmetric directions. Moreover, for TiS, six weyl node points (WP1, WP2, WP3, WP4, WP5 and WP6) are found along H-K high-symmetric direction. The results obtained from the PH-NODE code are in good agreement with the experimentally and theoretically reported data for each material.

Published
2024

2. Ab initio investigation of the lattice dynamics and thermophysical properties of BCC Vanadium and Niobium

Author

Pandey, Prakash and Pandey, Sudhir K.

Subjects
Condensed Matter - Materials Science
Abstract

In the present work, we have performed the phonon dispersion calculations of body-centered cubic Vanadium (V) and Niobium (Nb) with the supercell approach using different supercell size. Using DFT method, the calculated phonon spectra of V and Nb are found to be in a good agreement with the available experimental data. Our calculated results show a \enquote{dip}-like feature in the longitudinal acoustic phonon mode along the $\Gamma$-H high symmetric path for both transition metals in the case of supercell size 4$\times$4$\times$4. However, in supercell size 2$\times$2$\times$2 and 3$\times$3$\times$3, the \enquote{dip}-like feature is not clearly visible. In addition to this, thermodynamical properties are also computed, which compare well with the experimental data. Apart from this, the phonon lifetime due to electron-phonon interactions ($\tau_{\rm{eph}}^{\rm{ph}}$) and phonon-phonon interactions ($\tau_{\rm{ph}}^{\rm{ph}}$) are calculated. The effect of phonon-phonon interactions (PPI) is studied by computing the average phonon lifetime for all acoustic branches. The value of $\tau_{\rm{eph}}^{\rm{ph}}$ of V (Nb) is found to be 23.16 (24.70)$\times 10^{-15}$ s at $100$ K, which gets decreased to 1.51 (1.85)$\times 10^{-15}$ s at 1000 K. The $\tau_{\rm{ph}}^{\rm{ph}}$ of V (Nb) is found to be 8.59 (18.09)$\times 10^{-12}$ and 0.83 (1.76)$\times 10^{-12}$ s at 100 and 1000 K, respectively. Nextly, the lattice thermal conductivity is computed using linearized phonon Boltzmann equation. The present work suggests that studying the variation of phonon dispersion with supercell size is crucial for understanding the phonon properties of solids accurately.

Published
2023

5. Investigating the effect of electronic correlation on transport properties and phononic states of Vanadium

Author

Pandey, Prakash, Pandey, Vivek, and Pandey, Sudhir K.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

In the present work, we have tried to investigate the importance of electronic correlation on transport properties and phononic states of Vanadium (V). The temperature-dependent electrical resistivity ($\rho$) and electronic part of thermal conductivity ($\kappa_e$) due to electron-electron interactions (EEIs) and electron-phonon interactions (EPIs) are computed. The values of $\rho$ due to EEIs are found to be extremely small in comparison to $\rho$ due to EPIs. For instance, at 300 K, the calculated value of $\rho$ due to EEIs (EPIs) is $\sim$ 0.859$\times10^{-3}$ ($\sim$ 0.20) $\mu\Omega$m. The magnitudes of $\kappa_e$ due to EPIs are found to be in good agreement with the experimental results. These observations indicate the negligible importance of EEIs to these quantities for V. However, at 300 K, the value of Seebeck coefficient ($S$) at DFT+DMFT level ($\sim$ -0.547 $\mu$VK$^{-1}$) is found to be entirely different than at DFT level ($\sim 7.401$ $\mu$VK$^{-1}$). Also, the DFT+DMFT value of $S$ at 300 K is in good match with the available experimental data (-1.06 $\mu$VK$^{-1}$, 1.0 $\mu$VK$^{-1}$). Apart from this, the study of phononic states at DFT and DFT+DMFT level is performed. The obtained phononic band structure and phonon DOS at DFT+DMFT differ to a good extent from that at DFT. The maximum energy of phononic state obtained at DFT (DFT+DMFT) is $\sim$ 33.83 ($\sim$ 35.15) meV, where the result of DFT+DMFT is obtained more closer to the experimental data (35.15, 36.98 & 41.77 meV). These results highlight the importance of electronic correlation on $S$ & phononic states of simple correlated V metal.

Published
2022

8. Myositis in H1N1 Infection Compounds to Myasthenic Crisis

Author

Kalita, Jayantee, Chaudhary, Sarvesh, Pandey, Prakash, Singh, Varun, and Misra, Usha

Subjects
Bacterial pneumonia -- Diagnosis, Patient compliance -- Health aspects, Myositis -- Diagnosis, Viral antibodies -- Health aspects, Pneumonia -- Diagnosis, Antibodies -- Health aspects, Myasthenia gravis -- Diagnosis, Telmisartan -- Health aspects, Health
Abstract

Byline: Jayantee. Kalita, Sarvesh. Chaudhary, Prakash. Pandey, Varun. Singh, Usha. Misra Infection is an important trigger of myasthenic crisis (MC), and those infections manifest with pneumonia and muscle involvement may [...]

Published
2024

11. Thermal characterisation of miniature hotplates used in gas sensing technology

Author

Pandey, Prakash

Subjects
665.7
Abstract

The reliability of micro-electronic devices depends on the device operating temperature and therefore self-heating can have an adverse effect on the performance and reliability of these devices. Hence, thermal measurement is crucial including accurate maximum operating temperature measurements to ensure optimum reliability and good electrical performance. In the research presented in this thesis, the high temperature thermal characterisation of novel micro-electro-mechanical systems (MEMS) infra-red (IR) emitter chips for use in gas sensing technology for stable long-term operation were studied, using both IR and a novel thermo-incandescence microscopy. The IR emitters were fabricated using complementary-metal-oxide semiconductor (CMOS) based processing technology and consisted of a miniature micro-heater, fabricated using tungsten metallisation. There is a commercial drive to include MEMS micro-heaters in portable electronic applications including gas sensors and miniaturised IR spectrometers where low power consumption is required. IR thermal microscopy was used to thermally characterise these miniature MEMS micro-heaters to temperatures approaching 700 °C. The research work has also enabled further development of novel thermal measurement techniques, using carbon microparticle infra-red sensors (MPIRS) with the IR thermal microscopy. These microparticle sensors, for the first time, have been used to make more accurate high temperature (approaching 700 °C) spot measurements on the IR transparent semiconductor membrane of the micro-heater. To substantially extend the temperature measurement range of the IR thermal microscope, and to obtain the thermal profiles at elevated temperatures (> 700 °C), a novel thermal measurement approach has been developed by calibrating emitted incandescence radiation in the optical region as a function of temperature. The calibration was carried out using the known melting point (MP) of metal microparticles. The method has been utilised to obtain the high temperature thermo-optical characterisation of the MEMS micro-heaters to temperatures in excess of 1200 °C. The measured temperature results using thermo-incandescence microscopy were compared with calculated electrical temperature results. The results indicated the thermo-incandescence measurements are in reasonable agreement (± 3.5 %) with the electrical temperature approach. Thus, the measurement technique using optical incandescent radiation extends the range of conventional IR microscopy and shows a great potential for making very high temperature spot measurements on electronic devices. The high power (> 500mW) electrical characterisation of the MEMS micro-heaters were also analysed to assess the reliability. The electrical performance results on the MEMS micro-heaters indicated failures at temperatures greater than 1300 °C and Scanning Electron Microscope (SEM) was used to analyse the failure modes.

Published
2020

17. Temporal Pattern of Individual Neurological Function Recovery in Guillain–Barré Syndrome.

Author

Mahajan, Roopali, Kalita, Jayantee, Jha, Vishal, Gutti, Nagendra B., Pandey, Prakash C., and Misra, Usha K.

Subjects
MOTOR neuron diseases, DYSAUTONOMIA, DEMYELINATION, FUNCTIONAL status, DISABILITIES
Abstract

Background: There is paucity of studies on the temporal pattern of recovery of facial, bulbar, sensory, motor, and autonomic dysfunction in Guillain–Barré syndrome (GBS), although many studies have reported short- and long-term functional outcomes. We report the temporal pattern of recovery of various neurological functions in GBS, and compare the pattern of recovery between acute inflammatory demyelinating polyradiculoneuropathy (AIDP) and acute motor axonal neuropathy (AMAN). Methods: Forty-two patients with GBS were prospectively included, and their clinical details, including peak disability on a 0–6 scale, were noted. The day of complete recovery in motor, sensory, facial, bulbar, and autonomic functions during 3 months of follow-up was recorded. Results: Complete recovery of autonomic function occurred in all (median, 12 days), bulbar weakness in 91.3% (median, 15 days), facial weakness in 86.2% (median, 19 days), and sensory functions in 82.1% (median, 20 days). Only 9.5% of patients achieved normal motor function within 3 months. The days of complete recovery of bulbar, facial, autonomic, and motor deficits were comparable between AIDP and AMAN. Demyelinating GBS had an earlier recovery of bulbar and sensory functions. Conclusions: The neurological recovery in GBS occurs first in the autonomic, followed by the bulbar, facial, sensory, and motor functions. The demyelinating type had an earlier recovery of bulbar and sensory functions. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

19. Myositis Ossificans in Seronegative Neuromyelitis Optica Spectrum Disorder

Author

Pandey, Prakash, Tandon, Ruchika, and Jha, Sanjeev

Subjects
Health
Abstract

Byline: Prakash. Pandey, Ruchika. Tandon, Sanjeev. Jha Sir, Here, we report an unusual case of myositis ossificans in a lady with seronegative neuromyelitis optica spectrum disorder (NMOSD), without any history [...]

Published
2023

26. Universal significance of the principle of Samanya and Vishesha beyond Ayurveda

Author

Deep Narayan Pandey and Neha Pandey Prakash

Subjects
Miscellaneous systems and treatments, RZ409.7-999
Abstract

There is a fundamental principle in Ayurveda, known as the principle of Samanya (similarity) and Vishesha (difference). While the principle was essentially propounded in the context of yuktivyapashraya (rational medicine) in Ayurveda, here we would like to argue that it has universal applicability in Ayurveda and beyond, across systems and domains of knowledge, including science, technology and humanities, as well as scientific, experiential and traditional knowledge systems. Taking examples of some of the most well-known problems of ecology, economy and society, we demonstrated the universal significance of the principle of Samanya and Vishesha. To illustrate our argument, we have discussed three brief cases, as diverse as family, climate governance, and poverty reduction, and discussed in the light of the Samanya and Vishesha. Evidently, these issues also have larger relevance to public health. Bringing an Ayurveda concept out from its premises is a new order of thinking. The path-breaking insights that were provided, have important implication for deciphering other basic principles of Ayurveda from the perspective of their wider applicability, and thus their robustness. We have indicated a way forward for future research in Ayurveda to develop knowledge-base for evidence-based clinical practice in contemporary society. Keywords: Principle of similarity and difference, Ayurveda, Charaka samhita, Evidence-based Ayurveda, Yukti-vyapashraya

Published
2018
Full Text
View/download PDF

29. Hybrid Edge Termination for High-Voltage Vertical GaN Devices: Empirical Validation and Robust Processing Tolerance

Author

Pandey, Prakash, Nelson, Tolen M., Hontz, Michael R., Georgiev, Daniel G., Khanna, Raghav, Jacobs, Alan G., Lundh, James S., Gallagher, James C., Koehler, Andrew D., Hobart, Karl D., and Anderson, Travis J.

Abstract

This study presents empirical validation of a simulated novel hybrid edge termination (HET) structure with planar ion implantation processing for vertical gallium nitride (GaN) diodes. The hybrid structure combines a junction termination extension (JTE) with superimposed guard rings (GRs), creating zones with alternating implantation depths. A design optimization strategy is employed to match the charge profile in the termination to that of a reference beveled edge termination, and is validated through the fabrication of ~1.5 kV GaN diodes. The breakdown voltage of the hybrid termination is tied to the fitting error between the charge profile of the hybrid structure and the reference bevel, as confirmed through simulations and experimental results. The proposed structure successfully emulates the properties of a bevel termination without the need for complex etching or lithography procedures. Additionally, the tolerance of the proposed hybrid structure to major process variations during the wafer growth and device fabrication are studied in simulations. The hybrid termination structure showcases remarkable robustness against major process variations, making it a viable choice for high-yield manufacturing. The findings and patterns presented in this work offer significant insights for the design and large-scale production of forthcoming high-power vertical GaN devices.

Published
2024
Full Text
View/download PDF

32. A Simple Edge Termination Design for Vertical GaN P-N Diodes

Author

Pandey, Prakash, primary, Nelson, Tolen M., additional, Collings, William M., additional, Hontz, Michael R., additional, Georgiev, Daniel G., additional, Koehler, Andrew D., additional, Anderson, Travis J., additional, Gallagher, James C., additional, Foster, Geoffrey M., additional, Jacobs, Alan, additional, Ebrish, Mona A., additional, Gunning, Brendan P., additional, Kaplar, Robert J., additional, Hobart, Karl D., additional, and Khanna, Raghav, additional

Published
2022
Full Text
View/download PDF

36. Characterization and Modeling of a 1.3 kV Vertical GaN Diode

Author

Pandey, Prakash, primary, Collings, William, additional, Mahmud, Sadab, additional, Nelson, Tolen, additional, Hontz, Michael R., additional, Georgiev, Daniel G., additional, Koehler, Andrew D., additional, Anderson, Travis J., additional, Gallagher, James C., additional, Foster, Geoffrey M., additional, Jacobs, Alan, additional, Ebrish, Mona A., additional, Hobart, Karl D., additional, and Khanna, Raghav, additional

Published
2022
Full Text
View/download PDF

37. Ethanomedicinal Studies Of Forests Of Dhamtari District Of Chhatisgarh.

Author

Pandey, Prakash Chand, Deshpande, Bhagyashree, and Saraf, Ashish

Subjects
*PLANT diversity, *TRADITIONAL knowledge, *MEDICINAL plants, *PLANT species, *FOREST plants, *BOTANY
Abstract

Every plant has some use, but some plants are very important from the point of view of traditional medicinal utility. The main intent of the present study is to gather complete information about the diversity of medicinal plants found in forest regions of the Dhamtari district. The forest cover of Dhamtari region has a hilly terrain, a wild enclosure that is suited to the diversity of medicinal plants. In this study, the medicinal plants found there are listed along with their scientific name, local name, family, habit, parts used, and related traditional knowledge as told by the local tribes living there. Total 71 medicinal plant species with 60 genera distributed among 38 families were identified, following taxonomic literature and standard methods. Fabaceae family registered as the largest family with 13 species (18%). The tree showed their maximum presence with 46% and followed by herb 25%, shrub 23%, and a minimum of 6% climbers (4 species). It is also found that in 21% of cases the plant part used was fruit and in 16% of cases, it was leaves. As data indicating there is extremely diverse flora of medicinal plants that need to be conserved with the help of local inhabiting tribes. [ABSTRACT FROM AUTHOR]

Published
2023
Full Text
View/download PDF

44. Predictors of fever response in tuberculous meningitis: A clinical, MRI and biomarker study.

Author

Kalita, Jayantee, Pandey, Prakash C., Shukla, Ruchi, and Haldar, Rudrashish

Subjects
*TUBERCULOUS meningitis, *MONONUCLEAR leukocytes, *FEVER, *MAGNETIC resonance imaging, *CENTRAL nervous system
Abstract

Background: Central nervous system (CNS) has a different immune surveillance system; therefore, fever at admission and timeline of fever response after antitubercular treatment (ATT) may follow a different course in CNS infection. We report the predictors of fever response in tuberculous meningitis (TBM) including the effect of tumour necrosis factor‐α (TNF‐α) in cerebrospinal fluid (CSF) and its gene expression at mRNA of peripheral blood mononuclear cells (PBMCs). Methods: Fifty‐seven patients with TBM were prospectively evaluated. Their clinical findings and severity of meningitis were recorded. The expression of TNF‐α gene in PBMCs was quantified by real‐time polymerase chain reaction and TNF‐α concentration in CSF by cytokine bead array both in the patients and 14 matched controls. Results: All the patients had history of fever for a median duration of 75 days. The admission temperature ranged between 37.2°C and 40°C and correlated with CSF cell counts (p < 0.05). Cranial MRI was abnormal in 54 (94.7%) and revealed exudates in 33(57.9%), hydrocephalus in 27(47.4%), infarction in 27(47.4%) and tuberculoma in 33(57.9%) patients. Fever subsided after a median duration of 18 (2 60) days of treatment. Twelve (21.8%) patients only became afebrile within 10 days. The expression of TNF‐α gene correlated with CSF concentration of TNF‐α (p = 0.02) and independently predicted duration of defervescence [adjusted hazard ratio 1.02 (95% CI 1.00–1.04; p = 0.01). Conclusion: In the patients with TBM, defervescence takes longer time, and TNF‐α gene expression predicts the duration of defervescence. Future studies are needed to evaluate the role of TNF‐α‐modifying drugs in TBM. [ABSTRACT FROM AUTHOR]

Published
2022
Full Text
View/download PDF

45. Prevention of metabolic risks by Kalabhojanam strategy of Ayurveda

Author

Satyendra Narayan Ojha, Bhaswati Bhattacharya, Yamini B. Tripathi, Tanuja Nesari, Banwari Lal Gaur, Mahesh Kumar Dadhich, Jyoti Shanker Tripathi, Vishnu Bali Mishra, Sanjeev Sharma, Y.S. Raghuram, S. Gopakumar, Pawan Kumar Godatwar, Deep Narayan Pandey, Girendra Singh Tomar, Madhaw Singh Baghel, P. Rammanohar, Bhadresh Naik, Sanjeev Rastogi, Neha Pandey Prakash, Rajesh Kotecha, Arvind Kumar, and Shri Krishna Khandel

Subjects
business.industry, Environmental health, Metabolic risk, Physical activity, Medicine, Experiential knowledge, General Medicine, business, Metabolic health
Abstract

Metabolic risks are a global challenge. These risks are although modifiable by lifestyle, and physical activity to some extent, they are primarily related to dietary consumption. Considering a clear relationship of diet and metabolic risk factors, we hypothesised that an evidence-based, and widely applicable solution may be found in Ayurvedic dietetics. From among a large number of dietary strategies noted in Ayurveda classics, kalabhojanam—intake of food at a scheduled time, and not ad libitum—is suggested to be the best strategy to confer good health. Accordingly, using a novel methodology to provide fresh interpretation of known facts from Samhitas, scientific research on time-restricted feeding (TRF) and experiential knowledge, here we present the results of synthesis as usable knowledge for mass application. Results of this synthesis demonstrate the indispensable value of kalabhojanam for maintaining the metabolic health. In translating these findings for better health among the masses, care must be taken that while kalabhojanam has definite elements of scheduled feeding, but it is much more comprehensive than time-restricted feeding. Accordingly, it should be adopted in a comprehensive manner according to Ayurvedic insights presented in this analysis. This study brings out that because irregular eating patterns are detrimental to metabolic health, Kalabhojanam being a robust non-pharmaceutical strategy may be helpful in prevention of metabolic diseases.

Published
2020

49. What determines the success of joint forest management? Science-based lessons on sustainable governance of forests in India

Author

Vijai Shanker Singh, Deep Narayan Pandey, and Neha Pandey Prakash

Subjects
Economics and Econometrics, business.industry, Corporate governance, Joint Forest Management, Environmental resource management, Context (language use), Ecoforestry, Forest restoration, Community forestry, Goods and services, Enforcement, business, Waste Management and Disposal, Environmental planning
Abstract

A serious attention to the factors that lead to effective forest governance is essential to address forest restoration and management challenges in India. A large number of variables are suggested in literature that may potentially determine success or failure of sustainable governance of forests, yet the success in finding essential factors has remained elusive. Here we review the cutting-edge research on forest governance and find that higher levels of local monitoring and enforcement of locally made rules leads to improved forest restoration and regeneration, and reduction in forest degradation, across a variety of ecological, economic and social contexts. We also find that strong autonomy of rule-making at the local level (and not the government-imposed rules) is the key predictor of both better forests and yield of goods and services to support livelihoods of local people. These insights have immediate practical utility for evidence-based forest governance in India. Accordingly, in the context of joint forest management (JFM), we provide science-based lessons for linking knowledge to action at village level. It is concluded that village level JFM committees that have local rule-making, local monitoring and local enforcement are more likely to succeed in their efforts directed towards better forests and improved livelihoods.

Published
2011

Catalog

Books, media, physical & digital resources
See catalog results