Capacitive Coupling of Atomic Systems to Mesoscopic Conductors
- 13 February 2004
- journal article
- Published by American Physical Society (APS) in Physical Review Letters
- Vol. 92 (6) , 063601
- https://doi.org/10.1103/physrevlett.92.063601
Abstract
We describe a technique that enables a strong, coherent coupling between isolated neutral atoms and mesoscopic conductors. The coupling is achieved by exciting atoms trapped above the surface of a superconducting transmission line into Rydberg states with large electric dipole moments that induce voltage fluctuations in the transmission line. Using a mechanism analogous to cavity quantum electrodynamics, an atomic state can be transferred to a long-lived mode of the fluctuating voltage, atoms separated by millimeters can be entangled, or the quantum state of a solid-state device can be mapped onto atomic or photonic states.Keywords
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This publication has 29 references indexed in Scilit:
- Atomic Memory for Correlated Photon StatesScience, 2003
- Coherent Transport of Neutral Atoms in Spin-Dependent Optical Lattice PotentialsPhysical Review Letters, 2003
- Generation of nonclassical photon pairs for scalable quantum communication with atomic ensemblesNature, 2003
- State-Insensitive Cooling and Trapping of Single Atoms in an Optical CavityPhysical Review Letters, 2003
- Coherent Quantum Dynamics of a Superconducting Flux QubitScience, 2003
- Deterministic Single-Photon Source for Distributed Quantum NetworkingPhysical Review Letters, 2002
- Manipulating the Quantum State of an Electrical CircuitScience, 2002
- Voyaging in Hilbert SpaceFortschritte der Physik, 2000
- Experimental entanglement of four particlesNature, 2000
- Quantum computation with quantum dotsPhysical Review A, 1998