Two-photon absorption: Difference between revisions
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In this tutorial we will show how to calculate two-photon absorption in bulk silicon, following the approach descried in Ref. <ref name="tpa">[https://amu.hal.science/hal-01755879/document Two-photon absorption in two-dimensional materials: The case of hexagonal boron nitride] Claudio Attaccalite, Myrta Grüning, Hakim Amara, Sylvain Latil, and François Ducastelle Phys. Rev. B '''98''', 165126 (2018) </ref> | In this tutorial we will show how to calculate two-photon absorption in bulk silicon, following the approach descried in Ref. <ref name="tpa">[https://amu.hal.science/hal-01755879/document Two-photon absorption in two-dimensional materials: The case of hexagonal boron nitride] Claudio Attaccalite, Myrta Grüning, Hakim Amara, Sylvain Latil, and François Ducastelle Phys. Rev. B '''98''', 165126 (2018) </ref>. In this tutorial we suppose you are already familiar with the non-linear response using the Yambo code. If it is not the case please study the previous tutorials: | ||
== References == | == References == | ||
Revision as of 14:38, 26 March 2024
In this tutorial we will show how to calculate two-photon absorption in bulk silicon, following the approach descried in Ref. [1]. In this tutorial we suppose you are already familiar with the non-linear response using the Yambo code. If it is not the case please study the previous tutorials:
References
- ↑ Two-photon absorption in two-dimensional materials: The case of hexagonal boron nitride Claudio Attaccalite, Myrta Grüning, Hakim Amara, Sylvain Latil, and François Ducastelle Phys. Rev. B 98, 165126 (2018)