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Dissipation in circuit quantum electrodynamics: lasing and cooling of a low-frequency oscillator

Julian Hauss et al 2008 New J. Phys. 10 095018 (17pp)   doi: 10.1088/1367-2630/10/9/095018  Help

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Julian Hauss1,2, Arkady Fedorov1,3, Stephan André1, Valentina Brosco1, Carsten Hutter1,4, Robin Kothari1,5, Sunil Yeshwanth1,6, Alexander Shnirman7,8,9 and Gerd Schön1,8
1 Institut für Theoretische Festkörperphysik, Universität Karlsruhe, D-76128 Karlsruhe, Germany
2 Lichttechnisches Institut, Universität Karlsruhe, D-76128 Karlsruhe, Germany
3 Kavli Institute of Nanoscience, Delft University of Technology, 2600 GA Delft, The Netherlands
4 Department of Physics, Stockholm University, AlbaNova University Center, SE-106 91 Stockholm, Sweden
5 Department of Physics, Indian Institute of Technology Bombay, Mumbai 400076, India
6 Department of Physics, Indian Institute of Technology, Kanpur 208016, India
7 Institut für Theorie der Kondensierten Materie, Universität Karlsruhe, D-76128 Karlsruhe, Germany
8 DFG-Center for Functional Nanostructures (CFN), Universität Karlsruhe, D-76128 Karlsruhe, Germany
9 Author to whom any correspondence should be addressed.
E-mail: shnirman@tkm.uni-karlsruhe.de

Part of Focus on Mechanical Systems at the Quantum Limit

Abstract. Superconducting qubits coupled to electric or nanomechanical resonators display effects previously studied in quantum electrodynamics (QED) as well as extensions thereof. Here, we consider a driven qubit coupled to a low-frequency oscillator and study the influence of dissipation. When the qubit is driven to perform Rabi oscillations, with Rabi frequency in resonance with the oscillator, the latter can be driven far from equilibrium. Blue detuned driving leads to a population inversion in the qubit and lasing behavior of the oscillator ('single-atom laser'). For red detuning, the qubit cools the oscillator. This behavior persists at the symmetry point where the qubit–oscillator coupling is quadratic and decoherence effects are minimized. Here, the system realizes a 'single-atom-two-photon laser'.

Received 5 June 2008
Published 30 September 2008

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