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<i>Ab initio</i> theory of free-carrier absorption in semiconductors

Xiao Zhang, Guangsha Shi, Joshua Leveillee, Feliciano Giustino, Emmanouil Kioupakis

2022Physical review. B./Physical review. B29 citationsDOIOpen Access PDF

Abstract

The absorption of light by free carriers in semiconductors results in optical loss for all photon wavelengths. Since free-carrier absorption competes with optical transitions across the band gap, it also reduces the efficiency of optoelectronic devices such as solar cells because it does not generate electron-hole pairs. In this work, we develop a first-principles theory of free-carrier absorption taking into account both single-particle excitations and the collective Drude term, and we demonstrate its application to the case of doped Si. We determine the free-carrier absorption coefficient as a function of carrier concentration and we obtain excellent agreement with experimental data. We identify the dominant processes that contribute to free-carrier absorption at various photon wavelengths, and analyze the results to evaluate the impact of this loss mechanism on the efficiency of Si-based optoelectronic devices.

Topics & Concepts

Free carrier absorptionFree carrierAbsorption (acoustics)SemiconductorFree electron modelMaterials scienceOptoelectronicsTwo-photon absorptionAttenuation coefficientAb initioWavelengthBand gapDopingPhotonMolecular physicsOpticsChemistryPhysicsLaserComposite materialOrganic chemistrySemiconductor Quantum Structures and DevicesSilicon Nanostructures and PhotoluminescenceThin-Film Transistor Technologies
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