Send us a text

Light momentum turns pure silicon from
an indirect to a direct bandgap semiconductor
https://phys.org/news/2024-09-momentum-pure-silicon-indirect-bandgap.html
Original Paper
https://arxiv.org/pdf/2304.14521
Photon Momentum-Enabled Light Absorption in Bulk Silicon

Source: Kharintsev, S. S. et al. Photon momentum enabled light absorption in bulk silicon. Science Advances, 10, eadf5997 (2024).

Central Theme: This research demonstrates a novel method to dramatically enhance light absorption in silicon, an indirect bandgap semiconductor, by exploiting the momentum of confined photons. This challenges the traditional reliance on plasmonic or light-trapping mechanisms for improving silicon's optical properties.

Key Findings:

• Photon Momentum as a Driving Force: Confining photons to scales below 3 nm significantly increases their momentum, enabling direct optical transitions in silicon that would otherwise be forbidden due to momentum mismatch. "Photons do not carry sufficient momentum to induce indirect optical transitions in semiconducting materials such as silicon, necessitating the assistance of lattice phonons to conserve momentum… This work introduces an alternative strategy to fulfill the momentum-matching requirement in indirect optical transitions."

• Enhanced Absorption Across Broad Spectrum: This effect substantially increases silicon's absorption coefficient across a wide spectral range, from the UV to the near-IR, effectively transforming it into a direct bandgap semiconductor for the confined photons.

• Experimental Validation: Tip-enhanced Raman scattering (TERS) experiments demonstrate significant heating and melting of silicon AFM tips when placed near 1-2 nm gold structures on a substrate. This is attributed to enhanced absorption due to confined photon momentum. "We observe an inverse relationship between particle size and optical heating, as revealed by both Raman (Figures 3b2-3b5) and phase measurements (Figures 3c1-3c5)."

• Reflectance measurements on silicon wafers decorated with 1-2 nm gold nanoparticles show reduced reflection, indicating enhanced absorption, particularly near the silicon's band edge. "The difference in the reflectance spectra, between the bare wafer

About SCZoomers:
https://www.facebook.com/groups/1632045180447285
https://x.com/SCZoomers
https://mstdn.ca/@SCZoomers
https://bsky.app/profile/safety.bsky.app
Spoken word, short and sweet, with rhythm and a catchy beat.
http://tinyurl.com/stonefolksongs
Curated, independent, moderated, timely, deep, gentle, evidenced-based, clinical & community information regarding COVID-19. Since 2017, it has focused on Covid since Feb 2020, with Multiple Stores per day, hence a large searchable base of stories to date. More than 4000 stories on COVID-19 alone. Hundreds of stories on Climate Change.
Zoomers of the Sunshine Coast is a news organization with the advantages of deeply rooted connections within our local community, combined with a provincial, national and global following and exposure. In written form, audio, and video, we provide evidence-based and referenced stories interspersed with curated commentary, satire and humour. We reference where our stories come from and who wrote, published, and even inspired them. Using a social media platform means we have a much higher degree of interaction with our readers than conventional media and provides a significant amplification effect, positively. We expect the same courtesy of other media referencing our stories.