生物系统中的相干与退相干：噪声辅助输运原理和长寿命相干的起源。

Coherence and decoherence in biological systems: principles of noise-assisted transport and the origin of long-lived coherences.

机构信息

Institute of Theoretical Physics, Universität Ulm, Albert-Einstein-Allee 11, 89069 Ulm, Germany.

出版信息

Philos Trans A Math Phys Eng Sci. 2012 Aug 13;370(1972):3638-57. doi: 10.1098/rsta.2011.0224.

DOI:10.1098/rsta.2011.0224

Abstract

The quantum dynamics of transport networks in the presence of noisy environments has recently received renewed attention with the discovery of long-lived coherences in different photosynthetic complexes. This experimental evidence has raised two fundamental questions: firstly, what are the mechanisms supporting long-lived coherences; and, secondly, how can we assess the possible functional role that the interplay of noise and quantum coherence might play in the seemingly optimal operation of biological systems under natural conditions? Here, we review recent results, illuminate them by means of two paradigmatic systems (the Fenna-Matthew-Olson complex and the light-harvesting complex LHII) and present new progress on both questions.

摘要

在存在嘈杂环境的情况下，传输网络的量子动力学最近因在不同光合作用复合物中发现长寿命相干而受到重新关注。这一实验证据提出了两个基本问题：首先，支持长寿命相干的机制是什么；其次，我们如何评估噪声和量子相干的相互作用在自然条件下生物系统看似最优运行中可能发挥的功能作用？在这里，我们回顾了最近的研究结果，通过两个范例系统（Fenna-Matthew-Olson 复合物和光捕获复合物 LHII）阐明了这些结果，并介绍了这两个问题的新进展。

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生物系统中的相干与退相干：噪声辅助输运原理和长寿命相干的起源。

Coherence and decoherence in biological systems: principles of noise-assisted transport and the origin of long-lived coherences.

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