Boosting biomolecular switch efficiency with quantum coherence
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Date
2024
Authors
Pusuluk, Onur
Pusuluk, Onur
Farrow, Tristan
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Amer Physical Soc
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Abstract
The resource theory of quantum thermodynamics has emerged as a powerful tool for exploring the outof -equilibrium dynamics of microscopic and highly correlated systems. Recently, it has been employed in photoisomerization, a mechanism facilitating vision through the isomerism of the photoreceptor protein rhodopsin, to elucidate the fundamental limits of efficiency inherent in this physical process. Limited attention has been given to the impact of energetic quantum coherences in this process, as these coherences do not influence the energy -level populations within an individual molecule subjected to thermal operations. However, a specific type of energetic quantum coherences can impact the energy -level populations in the scenario involving two or more molecules. In this study, we examine the case of two molecules undergoing photoisomerization to show that energetic quantum coherence can function as a resource that amplifies the efficiency of photoisomerization. These insights offer evidence for the role of energetic quantum coherence as a key resource in the realm of quantum thermodynamics at mesoscopic scales.
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Q2
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Q2
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Volume
110
Issue
1