FIZIKA A7  (1998) 4, 165-176

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A RESONANCE TREATMENT AND ITS APPLICATION TO ELECTRON TRANSFER REACTIONS IN A PHOTOSYNTHETIC REACTION CENTRE

TIBERIUS CHECHEa,  LUCIAN GEORGESCUa, EMIL BARNAa and ION DINAb

aUniversity of Bucharest, Faculty of Physics, Department of Polymer Physics,
P.O.Box 11-Magurele R-76900, Bucharest, Romania
E-mail: [email protected], Tel.: 40-1-3309873, Fax: 40-1-4208625

bSfântul Ioan-Hospital, os. Vitan-Bârzeti 13, Bucharest Romania

Received 20 May 1998; revised manuscript received 12 December 1998
Accepted 11 January 1999

A detailed theoretical description of the "resonance treatment" based on Bloch equations is presented for a dissipative two-state system, in the limit of weak coupling between a microscopic subsystem and its environment, using the framework of the "spin-boson" model. For an Ohmic spectral density function, the dynamics of the transition probability for an overdamped regime is applied in the case of the primary electron transfer reaction in a bacterial photosynthetic reaction center.

PACS numbers: 31.70.Hq 82.20.Rp
UDC 539.196

Keywords: dissipative two-state system, microscopic subsystem and its environment, weak coupling, ``spin-boson" model, overdamped regime, primary electron transfer reaction, bacterial photosynthetic reaction
 
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