Shedding light on evolution of Raman line shape with probing laser power: Light-induced perturbation in electron-phonon coupling

Omkar V. Rambadey; Kailash Kumar; Ritu Nain; Anil Kumar; Pankaj R. Sagdeo; Philip M. Chamberlin; Kofi W. Adu

doi:10.1063/5.0189327

Shedding light on evolution of Raman line shape with probing laser power: Light-induced perturbation in electron-phonon coupling

Omkar V. Rambadey
, Kailash Kumar
, Ritu Nain
, Anil Kumar
, Pankaj R. Sagdeo
, Philip M. Chamberlin
, Kofi W. Adu

Division of Mathematics & Natural Sciences (Altoona)

Research output: Contribution to journal › Article › peer-review

5 Scopus citations

Abstract

The laser power mediated changes in the Raman line shape have been considered in terms of interference between discrete phonon states ρ and the electronic continuum states ϰ contributed by Urbach tail states. The laser-induced effects are treated in terms of the increase in the surface temperature and thereby the scaling of electronic disorder, i.e., Urbach energy, which can further contribute to the electron-phonon interactions. Therefore, the visualization of this effect is attempted analytically as a perturbation term in the Hamiltonian, which clearly accounts for the observed changes with laser power. This has been investigated based on the experimental results of laser power dependent Raman spectra of bulk EuFeO₃ and silicon nanowires, which are found to provide convincing interpretations.

Original language	English (US)
Article number	034202
Journal	Journal of Chemical Physics
Volume	161
Issue number	3
DOIs	https://doi.org/10.1063/5.0189327
State	Published - Jul 21 2024

All Science Journal Classification (ASJC) codes

General Physics and Astronomy
Physical and Theoretical Chemistry

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10.1063/5.0189327

Cite this

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title = "Shedding light on evolution of Raman line shape with probing laser power: Light-induced perturbation in electron-phonon coupling",

abstract = "The laser power mediated changes in the Raman line shape have been considered in terms of interference between discrete phonon states ρ and the electronic continuum states ϰ contributed by Urbach tail states. The laser-induced effects are treated in terms of the increase in the surface temperature and thereby the scaling of electronic disorder, i.e., Urbach energy, which can further contribute to the electron-phonon interactions. Therefore, the visualization of this effect is attempted analytically as a perturbation term in the Hamiltonian, which clearly accounts for the observed changes with laser power. This has been investigated based on the experimental results of laser power dependent Raman spectra of bulk EuFeO3 and silicon nanowires, which are found to provide convincing interpretations.",

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T2 - Light-induced perturbation in electron-phonon coupling

AU - Rambadey, Omkar V.

AU - Kumar, Kailash

AU - Nain, Ritu

AU - Kumar, Anil

AU - Sagdeo, Pankaj R.

AU - Chamberlin, Philip M.

AU - Adu, Kofi W.

PY - 2024/7/21

Y1 - 2024/7/21

N2 - The laser power mediated changes in the Raman line shape have been considered in terms of interference between discrete phonon states ρ and the electronic continuum states ϰ contributed by Urbach tail states. The laser-induced effects are treated in terms of the increase in the surface temperature and thereby the scaling of electronic disorder, i.e., Urbach energy, which can further contribute to the electron-phonon interactions. Therefore, the visualization of this effect is attempted analytically as a perturbation term in the Hamiltonian, which clearly accounts for the observed changes with laser power. This has been investigated based on the experimental results of laser power dependent Raman spectra of bulk EuFeO3 and silicon nanowires, which are found to provide convincing interpretations.

AB - The laser power mediated changes in the Raman line shape have been considered in terms of interference between discrete phonon states ρ and the electronic continuum states ϰ contributed by Urbach tail states. The laser-induced effects are treated in terms of the increase in the surface temperature and thereby the scaling of electronic disorder, i.e., Urbach energy, which can further contribute to the electron-phonon interactions. Therefore, the visualization of this effect is attempted analytically as a perturbation term in the Hamiltonian, which clearly accounts for the observed changes with laser power. This has been investigated based on the experimental results of laser power dependent Raman spectra of bulk EuFeO3 and silicon nanowires, which are found to provide convincing interpretations.

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ER -

Shedding light on evolution of Raman line shape with probing laser power: Light-induced perturbation in electron-phonon coupling

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