Decoherence effects in propagation of optically generated electron–hole pairs in image potential states. Gumhalter, B. & Petek, H. Surface Science, 445(2-3):195-208, 1, 2000. ![Decoherence effects in propagation of optically generated electron–hole pairs in image potential states [link]](https://bibbase.org/img/filetypes/link.svg "link")
Website abstract bibtex We discuss some many-body aspects of optically induced electronic transitions taking place in the first step of two-photon photoemission from Cu(111) surfaces. Transient and decoherence effects associated with the creation and spatio-temporal propagation of an electron-hole pair generated in the Shockley occupied surface state and image potential bands of the surface image potential (IP-SS 'exciton') are assessed by combining the effective model Hamiltonian approach with the formalism of nonadiabatic response.
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abstract = {We discuss some many-body aspects of optically induced electronic transitions taking place in the first step of two-photon photoemission from Cu(111) surfaces. Transient and decoherence effects associated with the creation and spatio-temporal propagation of an electron-hole pair generated in the Shockley occupied surface state and image potential bands of the surface image potential (IP-SS 'exciton') are assessed by combining the effective model Hamiltonian approach with the formalism of nonadiabatic response.},
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author = {Gumhalter, Branko and Petek, H},
journal = {Surface Science},
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