Mark Dykman
Fluctuating Nonlinear Oscillators: From Nanomechanics to Quantum Superconducting Circuits
Mark Dykman
Fluctuating Nonlinear Oscillators: From Nanomechanics to Quantum Superconducting Circuits
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The book provides a unifying insight into a broad range of phenomena displayed by vibrational systems of current interest. The chapters complement each other to give an account of the major fundamental results and applications in quantum information, condensed matter physics, and engineering.
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The book provides a unifying insight into a broad range of phenomena displayed by vibrational systems of current interest. The chapters complement each other to give an account of the major fundamental results and applications in quantum information, condensed matter physics, and engineering.
Produktdetails
- Produktdetails
- Verlag: Oxford University Press, USA
- New
- Seitenzahl: 456
- Erscheinungstermin: 29. September 2012
- Englisch
- Abmessung: 246mm x 170mm x 25mm
- Gewicht: 998g
- ISBN-13: 9780199691388
- ISBN-10: 019969138X
- Artikelnr.: 35483375
- Verlag: Oxford University Press, USA
- New
- Seitenzahl: 456
- Erscheinungstermin: 29. September 2012
- Englisch
- Abmessung: 246mm x 170mm x 25mm
- Gewicht: 998g
- ISBN-13: 9780199691388
- ISBN-10: 019969138X
- Artikelnr.: 35483375
Mark Dykman is Professor of Physics at Michigan State University.
* 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
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
* 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
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