Publikation: Stronger femtosecond excitation causes slower electron-phonon coupling in silicon
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2025
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European Union (EU): 101064961
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Physical Review Research. American Physical Society (APS). 2025, 7(2), 023114. eISSN 2643-1564. Verfügbar unter: doi: 10.1103/physrevresearch.7.023114
Zusammenfassung
Electron-hole pairs in semiconductors are essential for solar cells and fast electronic circuitry, but the competition between carrier transport and relaxation into heat limits the efficiency and speed. Here we use ultrafast electron diffraction with terahertz pulse compression to measure the electron-phonon decay rate in single-crystal silicon as a function of laser excitation strength. We find that the excited electrons relax slower into phonons for higher carrier densities. The electron-phonon scattering rate changes in a nonlinear way from 400 fs at ∼2×1020/cm3 to 1.2 ps at ∼4×1020/cm3. These results indicate that a hot electron gas quenches the scattering into phonons in a temperature-dependent way. Ultrafast electronic circuitry of silicon should therefore work faster and provide higher bandwidths at lower carrier densities.
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SWAIN, Atal Bihari, Joel KUTTRUFF, Jan VORBERGER, Peter BAUM, 2025. Stronger femtosecond excitation causes slower electron-phonon coupling in silicon. In: Physical Review Research. American Physical Society (APS). 2025, 7(2), 023114. eISSN 2643-1564. Verfügbar unter: doi: 10.1103/physrevresearch.7.023114BibTex
@article{Swain2025-05-05Stron-73766,
title={Stronger femtosecond excitation causes slower electron-phonon coupling in silicon},
year={2025},
doi={10.1103/physrevresearch.7.023114},
number={2},
volume={7},
journal={Physical Review Research},
author={Swain, Atal Bihari and Kuttruff, Joel and Vorberger, Jan and Baum, Peter},
note={Article Number: 023114}
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<dcterms:abstract>Electron-hole pairs in semiconductors are essential for solar cells and fast electronic circuitry, but the competition between carrier transport and relaxation into heat limits the efficiency and speed. Here we use ultrafast electron diffraction with terahertz pulse compression to measure the electron-phonon decay rate in single-crystal silicon as a function of laser excitation strength. We find that the excited electrons relax slower into phonons for higher carrier densities. The electron-phonon scattering rate changes in a nonlinear way from 400 fs at ∼2×10<sup>20</sup>/cm<sup>3</sup> to 1.2 ps at ∼4×10<sup>20</sup>/cm<sup>3</sup>. These results indicate that a hot electron gas quenches the scattering into phonons in a temperature-dependent way. Ultrafast electronic circuitry of silicon should therefore work faster and provide higher bandwidths at lower carrier densities.</dcterms:abstract>
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