Publikation: Multi-level quantum description of decoherence in superconducting qubits
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2004
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Physical Review. 2004(B69), 64503. Available under: doi: 10.1103/PhysRevB.69.064503
Zusammenfassung
We present a multi-level quantum theory of decoherence for a general circuit realization of a superconducting qubit. Using electrical network graph theory, we derive a Hamiltonian for the circuit. The dissipative circuit elements (external impedances, shunt resistors) are described using the Caldeira-Leggett model. The master equation for the superconducting phases in the Born-Markov approximation is derived and brought into the Bloch-Redfield form in order to describe multi-level dissipative quantum dynamics of the circuit. The model takes into account leakage effects, i.e. transitions from the allowed qubit states to higher excited states of the system. As a special case, we truncate the Hilbert space and derive a two-level (Bloch) theory with characteristic relaxation (T1) and decoherence (T2) times. We apply our theory to the class of superconducting flux qubits; however, the formalism can be applied for both superconducting flux and charge qubits.
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BURKARD, Guido, Roger H. KOCH, David P. DIVINCENZO, 2004. Multi-level quantum description of decoherence in superconducting qubits. In: Physical Review. 2004(B69), 64503. Available under: doi: 10.1103/PhysRevB.69.064503BibTex
@article{Burkard2004Multi-5300,
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<dcterms:abstract xml:lang="eng">We present a multi-level quantum theory of decoherence for a general circuit realization of a superconducting qubit. Using electrical network graph theory, we derive a Hamiltonian for the circuit. The dissipative circuit elements (external impedances, shunt resistors) are described using the Caldeira-Leggett model. The master equation for the superconducting phases in the Born-Markov approximation is derived and brought into the Bloch-Redfield form in order to describe multi-level dissipative quantum dynamics of the circuit. The model takes into account leakage effects, i.e. transitions from the allowed qubit states to higher excited states of the system. As a special case, we truncate the Hilbert space and derive a two-level (Bloch) theory with characteristic relaxation (T1) and decoherence (T2) times. We apply our theory to the class of superconducting flux qubits; however, the formalism can be applied for both superconducting flux and charge qubits.</dcterms:abstract>
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<dcterms:bibliographicCitation>First publ. in: arXiv:cond-mat/0308025 [cond-mat.mes-hall], also publ. in: Physical Review (2004), B69, 064503</dcterms:bibliographicCitation>
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