resonant raman in abinit
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Resonant Raman in ABINIT
Y. Gillet, M. Giantomassi and X. GonzeUniversité catholique de Louvain, Belgium
Y. Gillet, M. Giantomassi & XG, Phys. Rev. B88, 094305 (2013) – first-orderY. Gillet, S. Kontur, M. Giantomassi, C. Draxl & X. Gonze, subm. to Sci. ReportsY. Gillet, PhD thesis. https://dial.uclouvain.be/downloader/downloader.php?pid=boreal:182880&datastream=PDF_01
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Raman spectroscopyPrediction A. Smekal (1923) Discovery C.V. Raman & K.S. Krisnan (1928)
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Stokes contribution from phonons
phonon eigenmode (only at Gamma)Needed : phonon frequencies, eigenmode, Raman susceptibility
α jkm = Ω0
∂χ jk
∂Rκβκβ∑ ξm (κβ)
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LASER frequency dependence
J. B. Renucci, R. N. Tyte and M. Cardona. PRB 11, 3885 (1975)
Between 2.3 eV and 3.3 eV,Si Raman cross sectionincreases by about 200
Direct gap : 3.2 eV
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Frequency-dependent Raman susceptibility
α jkm (ω =ω LASER ) = Ω0
∂χ jk (ω =ω LASER )∂Rκβκβ
∑ ξm (κβ)
Frozen-phonon approach :the phonon mode is known
α jkm (ω ) = Ω0 limλ→0
χ jk ({R + λξm};ω ) − χ jk ({R};ω )λ
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Raman intensity dependence on LASER frequency : 1st-order results
Large excitonic effect :one order of magnitude !
x1.5
Ratiowith/withoutexcitoniceffects
x13
Direct gap : 3.2 eV
Y. Gillet, M. Giantomassi, and X. GonzePhys. Rev. B 88, 094305 (2013)
IPA
Silicon
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Raman intensity dependence on LASER frequency : 2nd-order results
Y. Gillet, et al, Sci. Reports, subm.Silicon
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Dependence on temperature of frequency-dielectric response
Silicon
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Temperature-dep. Resonant Raman
Silicon
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Polar materials
Silicon carbide Gallium arsenide
Needs LEO (Linear electro-optic) contribution.
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Implementations within ABINIT
Many finite-difference calculations : AbiPyIn main ABINIT : - Bethe-Salpeter, many improvements incl. Haydock- Also T-dep (non-hermiticity)- Linear Electro-Optic
Thanks for your attention !