Correlated two-qubit pairs enable genuine sub-reservoir cooling of a cavity mode by asymmetrically modifying upward and downward transition rates in a two-atom coupling geometry.
Elements of Micromaser Physics
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abstract
The elements of micromaser physics are reviewed in a tutorial way. The emphasis is on the basic theoretical concepts, not on technical details or experimental subtleties. After a brief treatment of the atom-photon interaction according to the Jaynes-Cummings model, the master equation that governs the dynamics of the one-atom maser is derived. Then the more important properties of the steady states of the one-atom maser are discussed, including the trapped states. The approximations, upon which the standard theoretical model of the one-atom maser is based, are exhibited. The methods by which one calculates statistical properties of the emerging atoms are hinted at.
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Analytic Theory and cQED Implementation of a Two-Qubit Refrigerator: Sub-100 mK Cavity Cooling from a 4 K Bath
Correlated two-qubit pairs enable genuine sub-reservoir cooling of a cavity mode by asymmetrically modifying upward and downward transition rates in a two-atom coupling geometry.