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Your search keyword '"Patel, Pratik D."' showing total 19 results
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19 results on '"Patel, Pratik D."'

1. Tunable phase transitions in half-Heusler TbPtBi compound

Author

Patel, Pratik D., Sharma, Akariti, Devanarayanan, Bharathiganesh, Dutta, Paramita, and Singh, Navinder

Subjects
Condensed Matter - Materials Science
Abstract

We report various phase transitions in half-Heusler TbPtBi compound using Density Functional Theory (DFT). Specifically, inclusion of spin-orbit coupling (SOC) leads to band inversion resulting in transition from the metallic to the topological semimetallic phase. However, in presence of SOC, there is a phase transition from the topological semimetal to the trivial semimetal when the material is subjected to compressive strain ($\lt -7\%$). Subsequently, under further increase of compressive strain ($\ge -7\%$), we find an opening of a direct band gap at the $\Gamma$ point, driving the system from the trivial semimetallic to the semiconducting state with changes in the sequence of bands. In the absence of SOC, only transition from the metallic to the semiconducting phase is noticed. Under tensile strain, the TbPtBi compound maintains its phase as in the unstrained condition but with an increase in the hole pocket at the Fermi level, both in the absence and presence of SOC. These tunable phase transitions (especially as a fraction of strain) make this compound very promising for application in various quantum devices such as highly sensitive strain gauges., Comment: 16 pages, 6 figures; Revised version

Published
2022
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2. Why is Superconductivity absent in bulk Infinite-layer Nickelates?

Author

Sharma, Akariti, Devanarayanan, Bharathiganesh, Patel, Pratik D., and Singh, Navinder

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Strongly Correlated Electrons
Abstract

We answer in affirmative the absence of superconductivity in bulk prepared samples of doped infinite-layer Nickelates through a simple magnetostatic model. In an independent approach we also employ Density Functional Theory (DFT) calculations for the same investigation. Our investigations reveal that it is the formation of Nickel clusters and Nickel deficient regions in bulk prepared samples (as opposed to thin films) that leads to the absence of superconductivity in bulk prepared samples.

Published
2022

3. The Case of Itinerant Magnetism in CaMn$_{2}$Al$_{10}$: Self-Consistent Renormalisation (SCR) Theory Study

Author

Devanarayanan, Bharathiganesh, Sharma, Akariti, Patel, Pratik D., and Singh, Navinder

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

We have applied the powerful self-consistent renormalization theory of spin fluctuations for the system CaMn$_{2}$Al$_{10}$ discovered in 2015 and was conjectured to be an itinerant magnet. We have calculated the inverse static (paramagnetic) susceptibility and have compared it with the experimental data (Phys. Rev. B 92, 020413, 2015). The agreement is very good. We have calculated spin fluctuations at various temperatures and have also estimated the strength of the electronic correlation i.e., ($I=0.3136$ eV) in the Hubbard Hamiltonian. Based on our quantitative explanation of the inverse static (paramagnetic) susceptibility data within the framework of SCR theory, we can decisively conclude CaMn$_{2}$Al$_{10}$ exhibits the phenomena of itinerant magnetism. Further, our DFT and DFT+U calculations corroborate the strong Mn-Al hybridization which is the key behind the itinerant magnetism in this system. Our estimated correlations strength will provide a foundation for further studies of itinerant magnetism in this system.

Published
2022
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17. First Principle Calculation of Structural, Electronic and Magnetic Properties of Mn2RhSi Heusler Alloy.

Author

Patel, Pratik D., Shinde, Satyam, and Gupta, Sanjay D.

Subjects
*FERRIMAGNETIC materials, *AB initio quantum chemistry methods, *DENSITY functional theory, *LATTICE constants, *MAGNETIC moments, *SPIN polarization, *SPINTRONICS
Abstract

The Mn2 based Heusler compounds are of great interest due to their potential ferrimagnetic properties & high spin polarization ratio. First principle calculation using ab initio density functional theory using ultra soft pseudo potential and generalized gradient approximation (GGA) with implementation of spin have been used to calculate the structural, magnetic and electronic properties of Mn2RhSi. The present study reveals that the Mn2RhSi is stable in Hg2CuTi type structure and exhibit half metallic ferromagnetic nature at equilibrium lattice constant. Total magnetic moment of Mn2RhSi is about 3.00 µB which obeys Slater Pauling (SP) rule M" = Z"-24. Antiparallal spin magnetic moment of Mn (I) and Mn (II) atoms which confirms the half-metallic nature of material. The present values of magnetic moment and lattice constant agree with previously reported results. High value of spin polarization ratio is critical for enhancement of efficiency of spintronics devices. [ABSTRACT FROM AUTHOR]

Published
2018
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18. Investigation of Structural and Elastic Stability, Electronic, Magnetic, Thermoelectric, Lattice-Dynamical and Thermodynamical Properties of Spin Gapless Semiconducting Heusler Alloy Zr2MnIn Using DFT Approach.

Author

Patel, Pratik D., Shinde, Satyam, Gupta, Sanjay D., and Jha, Prafulla K.

Subjects
NARROW gap semiconductors, SPINTRONICS, THERMODYNAMICS, DENSITY functional theory, BAND gaps, ELECTRONIC band structure, BRILLOUIN zones, ANTIFERROMAGNETISM
Abstract

In recent times, spin gapless semiconductors (SGS) have attracted much attention as a promising candidate for spintronics and thermoelectric applications due to their high carrier concentration and good thermoelectric figure of merit. In this paper, we have carried out a systematic theoretical investigation of the structural, elastic, thermal, electronic, magnetic, thermoelectric, lattice dynamical and thermodynamical properties of Zr2MnIn using density functional theory (DFT) based first principle calculations. The band structure calculation shows indirect band gap in a spin down channel and zero band gap in a spin up channel of valence and conduction bands confirming the spin gapless semiconducting nature of Zr2MnIn. The structural and dynamical stability of the antiferromagnetic phase of Zr2MnIn has also been investigated. Magnetization in Zr2MnIn originates due to the d state electrons of Zr atoms, which follows the Slater Pauling rule: Mt = Zt − 18. Phonon dispersion curves exhibit real frequency of phonon modes throughout the Brillouin zone, which confirms the dynamical stability of the antiferromagnetic phase of Zr2MnIn. Thermodynamical properties including specific heat and Debye temperature have been calculated using phonon density of states. A higher value of the thermoelectric figure of merit 1.25, predicts that this alloy as good thermoelectric properties with better output efficiency. [ABSTRACT FROM AUTHOR]

Published
2019
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19. Comparative cytopathologic evaluation using acridine orange with Papanicolaou stain in psychoactive substances abusers with potentially malignant and malignant disorders.

Author

Patel FH, Bhavasar R, Shah S, Shah V, and Patel PD

Abstract

Introduction: Oral cancer is a major health problem and its early detection is advantageous for therapeutic purposes. According to available evidence, the risks of oral malignancies increase with the usage of tobacco and other psychoactive substances (PSs). The present study showed expression pattern of nuclear and cytoplasmic changes from normal individuals without habit to oral potentially malignant disorders (OPMD) and oral squamous cell carcinoma (OSCC) in PS abusers with the help of fluorescence acridine orange (AO) stain and Papanicolaou (PAP) stain., Aim and Objectives: This study aimed to investigate and compare diagnostic efficacy of fluorescence microscopic evaluation of AO stain in cytological smears with PAP staining under light microscopy in PS abusers having oral potentially malignant and malignant lesions., Materials and Methods: Oral smears from 120 individuals among which 40 from potentially malignant disorders, 40 from oral malignancy and 40 normal buccal mucosa smears were prepared. One set of smears was stained by AO staining and the other by PAP staining and examined under fluorescence and light microscope, respectively. The results of both the stainings were evaluated by grading cytology smears in class-I to class-V cytology., Results: The AO fluorescence stain reliably demonstrated malignant cells based on the differential fluorescence. The efficacy of AO fluorescence stain was higher than PAP stain in screening of oral lesions suspicious of malignancy. The sensitivity of PAP staining and AO staining is 57.50% and 61.25%, respectively., Conclusion: As compared to PAP staining method, fluorescent AO method is more effective in screening of OPMD and OSCC in PS abusers., Competing Interests: There are no conflicts of interest., (Copyright: © 2021 Journal of Oral and Maxillofacial Pathology.)

Published
2021
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