Kamalika Das scite author profile

Kamalika Das

3Publications

20Citation Statements Received

91Citation Statements Given

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University of Burdwan

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Electron transfer in proton‐hydrogen collisions in dense semi‐classical hydrogen plasma

Das

Rej³

et al. 2021

Contributions to Plasma Physics

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Quantum mechanical calculations have been accomplished to study the dynamics of the reaction: p + H(1s) → H(nlm) + p in dense semi-classical hydrogen plasma. Interactions among the charged particles in plasma are represented by a pseudopotential which takes care of the collective effects at large distances and quantum effect of diffraction at small distances. Various capture cross sections are computed for the incident proton energy lying within 10 to 500 keV by applying a distorted wave method which uses a variationally determined closed-form wave function of hydrogen atom. Moreover, an inclusive study is made to explore the effects of screening of plasma and quantum diffraction on various capture cross sections for a wide range of thermal Debye length and de Broglie wave length. It has been found that various cross sections suffer considerable changes due to varying Debye length and de Broglie wave length. K E Y W O R D Scharge transfer, distorted wave method, proton-hydrogen collision, pseudopotential, semi-classical hydrogen plasma

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Electron transfer in proton‐hydrogen collisions in nonideal classical plasmas

Das

Rej²,

Ghoshal

2020

Contributions to Plasma Physics

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Effects of nonideality of classical plasma on the reaction: p + H(1s) → H(nlm) + p has been investigated by carrying out fully quantum mechanical calculations within the framework of a first-order distorted wave method. Scattering amplitude is calculated conveniently by employing a simple, variationally determined wave function of hydrogen atom embedded in nonideal classical plasma. A detailed study is made on the changes in electron transfer cross sections due to the nonideality of plasma varying from 0 to 4 and the incident proton energy lying between 10 and 500 keV. It has been found that nonideality of plasma causes substantial change in capture cross section.

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Positron Scattering from Hydrogen Atom in Non-ideal Classical Plasmas

Das

Ghoshal

2023

Few-Body Syst

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Kamalika Das

Electron transfer in proton‐hydrogen collisions in dense semi‐classical hydrogen plasma

Electron transfer in proton‐hydrogen collisions in nonideal classical plasmas

Positron Scattering from Hydrogen Atom in Non-ideal Classical Plasmas

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