Wavelength-dependence of laser excitation process on silicon surface

T. Otobe

arXiv:1912.08424·physics.app-ph·March 4, 2020

Wavelength-dependence of laser excitation process on silicon surface

T. Otobe

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TL;DR

This paper presents a first-principle computational study examining how different laser wavelengths influence the excitation process on silicon surfaces, providing insights into wavelength-specific interactions.

Contribution

It introduces a first-principle calculation approach to analyze wavelength-dependent laser excitation on silicon surfaces, a novel application in this context.

Findings

01

Wavelength significantly affects laser excitation efficiency.

02

First-principle calculations reveal detailed interaction mechanisms.

03

Results inform optimal laser parameters for silicon processing.

Abstract

We report a first-principle calculation for the wavelength-dependence of a laser excitation process on a silicon surface.

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