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A canonical Hamiltonian for open quantum systems

Journal Article · · Journal of Physics. A, Mathematical and Theoretical

Abstract If an open quantum system is initially uncorrelated from its environment, then its dynamics can be written in terms of a Lindblad-form master equation. The master equation is divided into a unitary piece, represented by an effective Hamiltonian, and a dissipative piece, represented by a hermiticity-preserving superoperator; however, the division of open system dynamics into unitary and dissipative pieces is non-unique. For finite-dimensional quantum systems, we resolve this non-uniqueness by specifying a norm on the space of dissipative superoperators and defining the canonical Hamiltonian to be the one whose dissipator is minimal. We show that the canonical Hamiltonian thus defined is equivalent to the Hamiltonian initially defined by Lindblad, and that it is uniquely specified by requiring the dissipator’s jump operators to be traceless, extending a uniqueness result known previously in the special case of Markovian master equations. For a system weakly coupled to its environment, we give a recursive formula for computing the canonical effective Hamiltonian to arbitrary orders in perturbation theory, which we can think of as a perturbative scheme for renormalizing the system’s bare Hamiltonian.

Research Organization:
Univ. of California, Oakland, CA (United States)
Sponsoring Organization:
USDOE Office of Science (SC)
DOE Contract Number:
SC0019380
OSTI ID:
1979450
Journal Information:
Journal of Physics. A, Mathematical and Theoretical, Vol. 55, Issue 22; ISSN 1751-8113
Publisher:
IOP Publishing
Country of Publication:
United States
Language:
English

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Completely positive linear maps on complex matrices journal June 1975
Integration with Respect to the Haar Measure on Unitary, Orthogonal and Symplectic Group journal March 2006

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