A quantum picture of light-suppressed photosynthetic charge transfer: Photo-blockade

• URL: http://arxiv.org/abs/2403.13873v1
• Date: Wed, 20 Mar 2024 15:30:46 GMT
• Title: A quantum picture of light-suppressed photosynthetic charge transfer: Photo-blockade
• Authors: Guang Yang, Gen Tatara,
• Abstract summary: We propose a dynamic mechanism for the reversible regulation of photochemistry in plants under varying light environments. We employ a three-level quantum model to take into account the correlations between charge donors and charge acceptors immediately before photoexcitation. We show that under steady and coherent driving of light, the efficiency of charge transfer is inversely proportional to the intensity of incident light, which can be suppressed so severely that it becomes a limiting factor on photosynthetic electron transport.
• Score: 3.8296992620632757
• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: We propose a dynamic mechanism for the reversible regulation of photochemistry in plants under varying light environments. We employ a three-level quantum model to take into account the correlations between charge donors and charge acceptors immediately before photoexcitation, and show that under steady and coherent driving of light, the efficiency of charge transfer is inversely proportional to the intensity of incident light, which can be suppressed so severely that it becomes a limiting factor on photosynthetic electron transport. These results are analyzed to gain insight in the light responses of photosynthetic parameters. We discuss the implications of thermal fluctuation in the light source used in photochemical experiments, and argue that in high light conditions, the quantum yields measured with an incandescent lamp may be higher than those measured with a laser, a manifestation of thermal fluctuation in lamp illumination. Our new picture renders a consistent interpretation of a wide range of experiments, including plastocyanin-dependent electron transport in photosystem I, biphasic redox kinetics of P700 and wavelength-dependent quantum yields, and provides a donor-side scheme for the onset of irreversible damage to photosystem II.

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