I present a fully ab initio scheme to model transient spectroscopy signals in the presence of strongly bound excitons. Using LiF as a prototype material, I show that the scheme is able to capture the exciton signature both in time-resolved angle-resolved photoemission spectroscopy and transient absorption experiments. The approach is completely general and can become the reference scheme for modeling pump and probe experiment in a wide range of materials.
Excitons and carriers in transient absorption and time-resolved ARPES spectroscopy: An ab initio approach
Sangalli D.
Primo
2021
Abstract
I present a fully ab initio scheme to model transient spectroscopy signals in the presence of strongly bound excitons. Using LiF as a prototype material, I show that the scheme is able to capture the exciton signature both in time-resolved angle-resolved photoemission spectroscopy and transient absorption experiments. The approach is completely general and can become the reference scheme for modeling pump and probe experiment in a wide range of materials.File in questo prodotto:
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2021_PRM5_083803_exc_carr_ai.pdf
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2021_PRM5_083803_exc_carr_ai_supp.pdf
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