Fluctuating Nonlinear Oscillators: From Nanomechanics to Quantum Superconducting Circuits
The book provides a unifying insight into fluctuation phenomena in a broad variety of vibrational systems of current interest. It consists of individual chapters written by leading experts in the field. The chapters are self-contained and complement each other. The ongoing rapid development of well-characterized mesoscopic vibrational systems has made it possible to address fundamental physics problems and to explore new approaches to quantum and classical measurements, with applications to quantum information, condensed matter physics, and engineering. The book gives an account of major results in this direction. The topics include dynamics and quantum control of microcavity modes coupled to qubits, measurements with bifurcation-based amplifiers and new types of such amplifiers; switching rate scaling and new quantum mechanisms of metastable decay; wave mixing and parametric excitation in the quantum regime; collective phenomena and the interaction-induced discrete time symmetry breaking; and back-action and shot noise in electron-vibrational systems.
1136507138
Fluctuating Nonlinear Oscillators: From Nanomechanics to Quantum Superconducting Circuits
The book provides a unifying insight into fluctuation phenomena in a broad variety of vibrational systems of current interest. It consists of individual chapters written by leading experts in the field. The chapters are self-contained and complement each other. The ongoing rapid development of well-characterized mesoscopic vibrational systems has made it possible to address fundamental physics problems and to explore new approaches to quantum and classical measurements, with applications to quantum information, condensed matter physics, and engineering. The book gives an account of major results in this direction. The topics include dynamics and quantum control of microcavity modes coupled to qubits, measurements with bifurcation-based amplifiers and new types of such amplifiers; switching rate scaling and new quantum mechanisms of metastable decay; wave mixing and parametric excitation in the quantum regime; collective phenomena and the interaction-induced discrete time symmetry breaking; and back-action and shot noise in electron-vibrational systems.
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Fluctuating Nonlinear Oscillators: From Nanomechanics to Quantum Superconducting Circuits

Fluctuating Nonlinear Oscillators: From Nanomechanics to Quantum Superconducting Circuits

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Fluctuating Nonlinear Oscillators: From Nanomechanics to Quantum Superconducting Circuits
Fluctuating Nonlinear Oscillators: From Nanomechanics to Quantum Superconducting Circuits
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Fluctuating Nonlinear Oscillators: From Nanomechanics to Quantum Superconducting Circuits

Fluctuating Nonlinear Oscillators: From Nanomechanics to Quantum Superconducting Circuits

Overview

The book provides a unifying insight into fluctuation phenomena in a broad variety of vibrational systems of current interest. It consists of individual chapters written by leading experts in the field. The chapters are self-contained and complement each other. The ongoing rapid development of well-characterized mesoscopic vibrational systems has made it possible to address fundamental physics problems and to explore new approaches to quantum and classical measurements, with applications to quantum information, condensed matter physics, and engineering. The book gives an account of major results in this direction. The topics include dynamics and quantum control of microcavity modes coupled to qubits, measurements with bifurcation-based amplifiers and new types of such amplifiers; switching rate scaling and new quantum mechanisms of metastable decay; wave mixing and parametric excitation in the quantum regime; collective phenomena and the interaction-induced discrete time symmetry breaking; and back-action and shot noise in electron-vibrational systems.

Product Details

ISBN-13: 9780191637544
Publisher: OUP Oxford
Publication date: 07/26/2012
Sold by: Barnes & Noble
Format: eBook
File size: 30 MB
Note: This product may take a few minutes to download.

About the Author

Mark Dykman is Professor of Physics at Michigan State University.

Table of Contents

  • 1: P. Bertet, F.R. Ong, M. Boissonneault, A. Bolduc, F. Mallet, A.C. Doherty, A. Blais, D. Vion, and D. Esteve: Circuit quantum electrodynamics with a nonlinear resonator
  • 2: M. P. Blencowe, A. D. Armour, and A.J. Rimberg: Quantum-classical correspondence for a dc-biased cavity resonator-Cooper-pair transistor system
  • 3: H. B. Chan and C. Stambaugh: Activated switching in nonlinear micromechanical resonators
  • 4: A. N. Cleland: Measurement and control of quantum cavities with electronic atoms
  • 5: M.H. Devoret, A. Kamal, and B. Abdo: Non-degenerate three wave mixing with Josephson junctions
  • 6: T. Dunn, A. L. Chudnovskiy, and A. Kamenev: Dynamics of nano-magnetic oscillators
  • 7: M. I. Dykman: Periodically modulated quantum nonlinear oscillators
  • 8: E. Ginossar, L. S. Bishop and S. M. Girvin: Nonlinear oscillators and high fidelity qubit state measurement in circuit quantum electrodynamics
  • 9: M.-S. Heo, Y. Kim, H.-R. Noh and W. Jhe: Spontaneous time-symmetry breaking in a vibrating cold atom system
  • 10: R. Karabalin and M. L. Roukes: Nonlinear nanoelectromechanical systems
  • 11: R. Lifshitz, E. Kenig, and M.C. Cross: Collective dynamics in arrays of coupled nonlinear resonators
  • 12: H. B. Meerwaldt, G. A. Steele, and H. S. J. van der Zant: Carbon nanotubes: Nonlinear high-Q resonators with strong coupling to single-electron tunneling
  • 13: J. Moser, A. Eichler, B. Lassagne, J. Chaste, Y. Tarakanov, J. Kinaret, I. Wilson- Rae, and A. Bachtold: Dissipative and conservative nonlinearity in carbon nanotube and graphene mechanical resonators
  • 14: R. Vijay, K.W. Murch and I. Siddiqi: Dynamical bifurcation and amplification in Josephson junction oscillators
  • 15: C. M. Wilson, T. Duty, and P. Delsing: Parametric oscillators based on superconducting circuits
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