Dresden 2026 – wissenschaftliches Programm

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HL: Fachverband Halbleiterphysik

HL 40: Oxide Semiconductors: Transport and Spectroscopy

HL 40.2: Vortrag

Donnerstag, 12. März 2026, 09:45–10:00, POT/0251

Resonant Raman studies in rutile-Germaniumdioxide — •Kenneth Brandt^1,3, Moritz Meißner^1,3, Zbigniew Galazka², Tobias Schultz², Markus Wagner^1,3, and Hans Tornatzky^1,3 — ¹Paul-Drude-Institut, Berlin — ²Leibniz-Institut für Kristallzüchtung, Berlin — ³Technische Universität Berlin

Ultra-wide bandgap (UWBG) semiconductors are a new research area of interest, with promised applications in power electronics. Germaniumdioxide in the rutile phase (r-GeO₂) has been characterised to be such an UWBG Material with a Bandgap at about 4.5 eV. To be able to create homojunction devices, the material needs to be ambipolar dopable, which poses a challenge for β-Ga₂O₃, as p-type doping has yet to be achieved, while r-GeO₂ is predicted to be ambipolar dopable. Raman measurements show a non typical intensity relationship, in which explicitly the E_g mode does not follow the expected I∝ω⁴ relation of the Raman-Scattering processes but decreases in intensity with higher excitation energies. We are performing resonant Raman studies, with excitation energies ranging from 1.2 eV provided by a tunable Ti:Sa Laser, as well as multiple additional single line Lasers with energies up to 5.1 eV, to investigate the atypical Raman response and electron-phonon coupling.

To quantise the measurements CaF₂ is used as a calibration standard and GaAs is included in the measurement series to compare with literature.

Keywords: Resonant Raman Spectroscopy; Spectroscopy; rutile Germaniumdioxide; r-GeO2; Ultra-wide Bandgap Material