Theory of the Infrared Absorption of Carriers in Germanium and Silicon

Abstract

The Drude-Zener theory of optical absorption by free carriers is applied to the infrared absorption of $n$-type germanium and $p$-type silicon. Average effective masses so determined are: for electrons in germanium ${〈(\frac{{m}^{*}}{m})〉}_{\mathrm{Av}}$ ranges from 0.11 to 0.22; for holes in silicon ${〈(\frac{{m}^{*}}{m})〉}_{\mathrm{Av}}$ ranges from 0.19 to 0.55. The average effective mass values of electrons in germanium are in good agreement with those measured by cyclotron resonance. The infrared absorption bands of $p$-type germanium are explained on the basis of transitions of holes between three energy bands lying near the top of the valence band. This band structure is suggested by cyclotron resonance experiments. Application of the theory to $p$-type silicon leads to the prediction of an absorption peak near $25\ensuremath{\mu}$ and two lesser ones near $33\ensuremath{\mu}$.

Keywords

GermaniumSiliconAbsorption (acoustics)InfraredAtomic physicsEffective mass (spring–mass system)ElectronCyclotron resonanceMaterials scienceDrude modelFar infraredCyclotronPhysicsCondensed matter physicsOpticsOptoelectronicsNuclear physics

Affiliated Institutions

University of California, Berkeley US

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Publication Info

Year: 1955
Type: article
Volume: 97
Issue: 6
Pages: 1647-1652
Citations: 218
Access: Closed

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APA Style

                            
                                    Arnold H. Kahn
                                
                            (1955). 
                            Theory of the Infrared Absorption of Carriers in Germanium and Silicon. 
                            Physical Review
                            , 97
                            (6)
                            , 1647-1652.
                            https://doi.org/10.1103/physrev.97.1647

Identifiers

DOI: 10.1103/physrev.97.1647