AV短视频

Fine-Tuning of Entangled Two-Photon Absorption by Controlling the One-Photon Absorption Properties of the Chromophore

Mingxue Fu, Dmitry Tabakaev, Rob Thew, Tomasz A. Wesolowski

J. Phys. Chem. Lett. 14, 2613-2619 (2023)

This work was a collaborative effort between: the Quantum Technologies group and the Department of Physical Chemistry, both at the AV短视频.

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Entangled two-photon absorption (ETPA) is known to be an illusive and difficult-to-observe phenomenon. Despite many experimental and theoretical studies aiming to describe the properties and mechanism of ETPA, there is still no definitive answer as to whether it provides a quantum advantage and increased absorption efficiency compared to classical two-photon absorption (TPA).

In this paper, the team theoretically studied the efficiency of ETPA as a function of both the coherence time of the entangled photon-pair source, and as a function of proporties of the electronic structure of the chromophores. The results showed that, unlike in the classical case of absorption of two non-entangled laser photons, the efficiency of ETPA can vary periodically in amplitude by up to 3 orders of magnitude, with a period as short as several femtoseconds.

The resulting analysis and simulations from this work will hopefully help to allow more optimised and predictable experimental parameters to be chosen for future ETPA experiments, especially with regards to the coherence time of the source and the sample being investigated.