Optical absorption in gallium oxide
ORAL
Abstract
Transparent conducting oxides (TCOs) are a technologically important class of materials used in optoelectronic devices, as TCOs balance two conflicting properties: transparency and conductivity. The requirement of transparency is typically tied to the band gap of the material being sufficiently large to prevent absorption of visible photons. This is a necessary but not sufficient condition: indeed, the high concentration of free carriers, required for conductivity, can also lead to optical absorption. This absorption can occur through direct absorption to higher-lying conduction band states, or by an indirect process, for example mediated by phonons or charged impurities.
We performed a detailed first-principles study of these absorption processes in Ga2O3 [1,2], a material with promising applications in high-power devices and UV photodetectors. Our results elucidate the fundamental limitations of optical absorption in Ga2O3 and shed light on experimental observations.
[1] H. Peelaers and C.G. Van de Walle, Appl. Phys. Lett. 111, 182104 (2017).
[2] H. Peelaers and C.G. Van de Walle, Phys. Rev. B 100, 081202 (2019).
We performed a detailed first-principles study of these absorption processes in Ga2O3 [1,2], a material with promising applications in high-power devices and UV photodetectors. Our results elucidate the fundamental limitations of optical absorption in Ga2O3 and shed light on experimental observations.
[1] H. Peelaers and C.G. Van de Walle, Appl. Phys. Lett. 111, 182104 (2017).
[2] H. Peelaers and C.G. Van de Walle, Phys. Rev. B 100, 081202 (2019).
*Work supported by DOE and AFOSR.
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Presenters
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Hartwin Peelaers
- Department of Physics and Astronomy, University of Kansas
- Univ of Kansas
- Department of Physics & Astronomy, University of Kansas