Journal
CHEMICAL PHYSICS
Volume 296, Issue 2-3, Pages 333-344Publisher
ELSEVIER SCIENCE BV
DOI: 10.1016/j.chemphys.2003.10.007
Keywords
spin-boson model; structured environment; QUAPI; flux qubit
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We investigate the dynamics of the spin-boson model when the spectral density of the boson bath shows a resonance at a characteristic frequency Omega but behaves Ohmically at small frequencies. The time evolution of an initial state is determined by making use of the mapping onto a system composed of a quantum mechanical two-state system (TSS) which is coupled to a harmonic oscillator (HO) with frequency Omega. The HO itself is coupled to an Ohmic environment. The dynamics is calculated by employing the numerically exact quasiadiabatic path-integral propagator technique. We find significant new properties compared to the Ohmic spin-boson model. By reducing the TSS-HO system in the dressed states picture to a three-level system for the special case at resonance, we calculate the dephasing rates for the TSS analytically. Finally, we apply our model to experimentally realized superconducting flux qubits coupled to an underdamped dc-SQUID detector. (C) 2003 Elsevier B.V. All rights reserved.
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