Open AccessFive-Photon Absorption and Selective Enhancement of Multiphoton Absorption Processes
Author(s) -
Daniel H. Friese,
Radovan Bast,
Kenneth Ruud
Publication year - 2015
Publication title -
acs photonics
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.735
H-Index - 89
ISSN - 2330-4022
DOI - 10.1021/acsphotonics.5b00053
Subject(s) - two photon absorption , absorption (acoustics) , excited state , polarizability , materials science , atomic physics , molecular physics , photon , absorption cross section , density functional theory , ab initio , absorption spectroscopy , extended x ray absorption fine structure , laser , optics , chemistry , molecule , physics , computational chemistry , quantum mechanics , composite material , cross section (physics)
We study one-, two-, three-, four-, and five-photon absorption of three centrosymmetric molecules using density functional theory. These calculations are the first ab initio calculations of five-photon absorption. Even- and odd-order absorption processes show different trends in the absorption cross sections. The behavior of all even- and odd-photon absorption properties shows a semiquantitative similarity, which can be explained using few-state models. This analysis shows that odd-photon absorption processes are largely determined by the one-photon absorption strength, whereas all even-photon absorption strengths are largely dominated by the two-photon absorption strength, in both cases modulated by powers of the polarizability of the final excited state. We demonstrate how to selectively enhance a specific multiphoton absorption process.
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