Manish Vashishta scite author profile

a b s t r a c tPresented herein is a detailed discussion of the properties of the lattice dynamic and optoelectronic properties of tantalum(V) oxynitride (TaON) and tantalum(V) nitride (Ta 3 N 5 ), from experimental and theoretical standpoint. The active Raman and infra red (IR) frequencies of TaON and Ta 3 N 5 were measured using confocal Raman and Fourier Transform Infrared spectroscopies (FTIR) and calculated using the linear response method within the density functional perturbation theory (DFPT). The detailed study leads to an exhaustive description of the spectra, including the symmetry of the vibrational modes. Electronic structures of these materials were computed using DFT within the range-separated hybrid HSE06 exchange-correlation formalism. Electronic and ionic contributions to the dielectric constant tensors of these materials were obtained from DFPT within the linear response method using the PBE functional. Furthermore, effective mass of photogenerated holes and electrons at the band edges of these compounds were computed from the electronic band structure obtained at the DFT/HSE06 level of theory. The results suggest that anisotropic nature in TaON and Ta 3 N 5 is present in terms of dielectric constant and effective masses.

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Magnetic Trapping of Cold Methyl Radicals

Liu

Vashishta

Djuricanin

et al. 2017

Phys. Rev. Lett.

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Ab initio electronic structure investigation of protonated mixed rare gas dimers [NeHHe]+, [ArHHe]+ and [ArHNe]+

Koner

Vats

Vashishta

et al. 2012

Computational and Theoretical Chemistry

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Production of rotationally cold methyl radicals in pulsed supersonic beams

Grzesiak

Vashishta

Djuricanin

et al. 2018

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We present a comparison of two technically distinct methods for the generation of rotationally cold, pulsed supersonic beams of methyl radicals (CH 3 ): a plate discharge source operating in the glow regime, and a dielectric barrier discharge source (DBD). The results imply that the efficiency of both sources is comparable, and that molecular beams with similar translational and rotational temperatures are formed. Methane (CH 4 ) proved to be the most suitable radical precursor species.

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Deceleration and trapping of polyatomic molecules

Vashishta¹

2020

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