We investigate the dynamics of a central spin that is coupled to a bath of spins through a non-uniform distribution of coupling constants. Simple analytical arguments based on master equation techniques as well as numerical simulations of the full von Neumann equation of the total system show that the short-time damping and decoherence behaviour of the central spin can be modelled accurately through an effective Hamiltonian involving a single effective coupling constant. The reduced short-time dynamics of the central spin is thus reproduced by an analytically solvable effective Hamiltonian model.
Ferraro, E., Brueur, H.P., Napoli, A., Messina, A. (2010). Effective hamiltonian approach to the non-Markovian dynamics in a spin-bath. PHYSICA SCRIPTA, T 140, 014021 [10.1088/0031-8949/2010/T140/014021].
Effective hamiltonian approach to the non-Markovian dynamics in a spin-bath
NAPOLI, Anna;MESSINA, Antonino
2010-01-01
Abstract
We investigate the dynamics of a central spin that is coupled to a bath of spins through a non-uniform distribution of coupling constants. Simple analytical arguments based on master equation techniques as well as numerical simulations of the full von Neumann equation of the total system show that the short-time damping and decoherence behaviour of the central spin can be modelled accurately through an effective Hamiltonian involving a single effective coupling constant. The reduced short-time dynamics of the central spin is thus reproduced by an analytically solvable effective Hamiltonian model.
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