[institut] Reminder - SCL online seminar: Veljko Jankovic, Thursday, 17 December, 14:00
Antun Balaz
antun at ipb.ac.rs
Thu Dec 17 09:26:43 CET 2020
Dear colleagues,
You are cordially invited to the SCL online seminar of the Center for the Study of Complex Systems, which will be held on Thursday, 17 December 2020 at 14:00 on Zoom (link is given below). The talk entitled
Relevance of incoherent light-induced coherences for photosynthetic energy transfer
will be given by Dr. Veljko Janković (Scientific Computing Laboratory, Center for the Study of Complex Systems, Institute of Physics Belgrade). Abstract of the talk:
The interpretation of oscillatory features in experimental signals from photosynthetic pigment-protein complexes excited by laser pulses [1] has been motivating vigorous interest in quantum effects in photosynthetic energy transfer (ET) [2]. However, electronic dynamics triggered by natural light, which is stationary and incoherent, is generally substantially different from the one observed in pulsed laser experiments. It has been suggested that the physically correct picture of photosynthetic ET should be in terms of a nonequilibrium steady state (NESS) [3], which is formed when a photosynthetic complex is continuously photoexcited and continuously delivers the excitation energy to the reaction center (RC), in which charge separation takes place.
In this talk we will consider ET in a molecular aggregate that is driven by weak incoherent radiation and coupled to its immediate environment and the RC. We will combine a second-order treatment of the photoexcitation with an exact treatment of the excitation-environment coupling and formulate the hierarchy of equations of motion (HEOM) that explicitly takes into account the photoexcitation process [4]. We will develop an efficient numerical scheme that respects the continuity equation for the excitation fluxes to compute the NESS of the aggregate [5]. The NESS is most conveniently described in the so-called preferred basis, in which the excitonic density matrix is diagonal. Having established the proper NESS description, we will critically reassess the involvement of stationary coherences in the photosynthetic ET and claims that stationary coherences may enhance the ET efficiency. Focusing on a model photosynthetic dimer, we will also examine the properties of the NESS and establish a general relationship between NESS picture and time-dependent description of an incoherently driven, but unloaded system.
[1] G. S. Engel et al., Nature 446, 782 (2007).
[2] J. Cao et al., Sci. Adv. 6, eaaz4888 (2020).
[3] P. Brumer, J. Phys. Chem. Lett. 9, 2946 (2018).
[4] V. Janković and T. Mančal, arXiv: 2001.07180 (2020).
[5] V. Janković and T. Mančal, arXiv: 2008.13395 (2020).
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Time: Dec 17, 2020 14:00 Belgrade
https://us02web.zoom.us/j/89929350836?pwd=ZUExemtpRFAybktSekdSY1lsMFJRZz09
Meeting ID: 899 2935 0836
Passcode: 104769
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Best regards,
Antun Balaž
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Dr. Antun Balaž
Research Professor
http://www.scl.rs/antun
Phone: +381 11 3713152
Fax: +381 11 3162190
Scientific Computing Laboratory
Center for the Study of Complex Systems
Institute of Physics Belgrade
National Institute of the Republic of Serbia
Pregrevica 118, 11080 Belgrade, Serbia
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