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Generalized optomechanics and its applications [[electronic resource] ] : quantum optical properties of generalized optomechanical system / / Jin-Jin Li & Ka-Di Zhu
| Generalized optomechanics and its applications [[electronic resource] ] : quantum optical properties of generalized optomechanical system / / Jin-Jin Li & Ka-Di Zhu |
| Autore | Li Jin-Jin, author |
| Pubbl/distr/stampa | Singapore, : World Scientific, 2013 |
| Descrizione fisica | 1 online resource (248 p.) |
| Disciplina | 535.15 |
| Soggetto topico |
Quantum optics
Mechanical engineering |
| Soggetto genere / forma | Electronic books. |
| ISBN | 981-4417-04-1 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Preface; Acknowledgments; Contents; 1. Introduction; 1.1 Optomechanical systems; 1.2 Previous research; 1.3 Recent development; 1.4 Hallmarks of optomechanical systems; 1.5 Generalized optomechanical systems; Bibliography; 2. Theoretical Treatments in Generalized Optomechanical Systems; 2.1 Heisenberg equation ofmotion; 2.2 Density matrix approach; 2.3 Quantum Heisenberg-Langevin equation; Bibliography; 3. Light Propagation in Cavity Optomechanical System; 3.1 Fast light and slow light; 3.2 All-optically controlled quantum memory; 3.3 Measurement of vacuum Rabi splitting
3.4 Measurement of resonator's frequency3.5 An optomechanical transistor; Bibliography; 4. Cavity Optomechanical System with Bose-Einstein Condensate; 4.1 Slow light; 4.2 All-optical transistor; 4.3 Single photon router; 4.4 Nonlinear all-optical Kerr switch; Bibliography; 5. The Smallest Generalized Optomechanical System - a Single Quantum Dot; 5.1 Two hallmarks of a single quantum dot as generalized optomechanical system; 5.2 Phonon induced coherent optical spectroscopy; 5.3 Measurement the frequency of LO-phonon; 5.4 Slow light and fast light; 5.5 A quantum optical transistor; Bibliography 6. Nanomechanical Resonator Coupled to a Single Quantum Dot6.1 Mechanically induced coherent population oscillation (MICPO); 6.2 Measurement of vibrational frequency of NR; 6.3 Measurement of coupling strength between NR and QD; 6.4 Measurement of lifetime of NR; 6.5 A single photon router; 6.6 All-optical Kerr switch; Bibliography; 7. Nanomechanical Resonator Coupled to a Hybrid Nanostructure; 7.1 Theory; 7.2 Coherent optical spectrum enhancement; 7.3 All-optical Kerr modulator; 7.4 Surface plasmon enhanced optical mass sensing; Bibliography 8. Optomechanical System with a Carbon Nanotube Resonator8.1 Theory; 8.2 Coherent optical spectroscopy; 8.3 Slow light and superluminal light; 8.4 Quantum optical transistor; 8.5 Nonlinear optical Kerr modulator; 8.6 All-optical mass sensor with a carbon nanotube; 8.7 Surface plasmon enhanced optical mass sensor; Bibliography; 9. A Circuit Cavity Electromechanical System; 9.1 Coherent optical spectrum; 9.2 Single-photon router with a cavity electromechanical system; 9.3 Controllable nonlinear responses; 9.4 Mass sensing based on a circuit cavity electromechanical system; Bibliography 10. A Hybrid Optomechanical System Based on Quantum Dot and DNA Molecules10.1 Model and theory; 10.2 Coherent optical spectrum; 10.3 Vibrational frequency measurement of DNA molecule; 10.4 Coupling strength determination between quantum dot and DNA molecule; 10.5 A protocol of tumor discrimination; Bibliography; Index |
| Record Nr. | UNINA-9910462796503321 |
Li Jin-Jin, author
|
||
| Singapore, : World Scientific, 2013 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Generalized optomechanics and its applications : quantum optical properties of generalized optomechanical system / / Jin-Jin Li, Shanghai Jiao Tong University, China, Ka-Di Zhu, Shanghai Jiao Tong University, China
| Generalized optomechanics and its applications : quantum optical properties of generalized optomechanical system / / Jin-Jin Li, Shanghai Jiao Tong University, China, Ka-Di Zhu, Shanghai Jiao Tong University, China |
| Autore | Li Jin-Jin, author |
| Pubbl/distr/stampa | Singapore, : World Scientific, 2013 |
| Descrizione fisica | 1 online resource (xi, 234 pages) : illustrations (some color) |
| Disciplina | 535.15 |
| Collana | Gale eBooks |
| Soggetto topico | Optomechanics |
| ISBN | 981-4417-04-1 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Preface; Acknowledgments; Contents; 1. Introduction; 1.1 Optomechanical systems; 1.2 Previous research; 1.3 Recent development; 1.4 Hallmarks of optomechanical systems; 1.5 Generalized optomechanical systems; Bibliography; 2. Theoretical Treatments in Generalized Optomechanical Systems; 2.1 Heisenberg equation ofmotion; 2.2 Density matrix approach; 2.3 Quantum Heisenberg-Langevin equation; Bibliography; 3. Light Propagation in Cavity Optomechanical System; 3.1 Fast light and slow light; 3.2 All-optically controlled quantum memory; 3.3 Measurement of vacuum Rabi splitting
3.4 Measurement of resonator's frequency3.5 An optomechanical transistor; Bibliography; 4. Cavity Optomechanical System with Bose-Einstein Condensate; 4.1 Slow light; 4.2 All-optical transistor; 4.3 Single photon router; 4.4 Nonlinear all-optical Kerr switch; Bibliography; 5. The Smallest Generalized Optomechanical System - a Single Quantum Dot; 5.1 Two hallmarks of a single quantum dot as generalized optomechanical system; 5.2 Phonon induced coherent optical spectroscopy; 5.3 Measurement the frequency of LO-phonon; 5.4 Slow light and fast light; 5.5 A quantum optical transistor; Bibliography 6. Nanomechanical Resonator Coupled to a Single Quantum Dot6.1 Mechanically induced coherent population oscillation (MICPO); 6.2 Measurement of vibrational frequency of NR; 6.3 Measurement of coupling strength between NR and QD; 6.4 Measurement of lifetime of NR; 6.5 A single photon router; 6.6 All-optical Kerr switch; Bibliography; 7. Nanomechanical Resonator Coupled to a Hybrid Nanostructure; 7.1 Theory; 7.2 Coherent optical spectrum enhancement; 7.3 All-optical Kerr modulator; 7.4 Surface plasmon enhanced optical mass sensing; Bibliography 8. Optomechanical System with a Carbon Nanotube Resonator8.1 Theory; 8.2 Coherent optical spectroscopy; 8.3 Slow light and superluminal light; 8.4 Quantum optical transistor; 8.5 Nonlinear optical Kerr modulator; 8.6 All-optical mass sensor with a carbon nanotube; 8.7 Surface plasmon enhanced optical mass sensor; Bibliography; 9. A Circuit Cavity Electromechanical System; 9.1 Coherent optical spectrum; 9.2 Single-photon router with a cavity electromechanical system; 9.3 Controllable nonlinear responses; 9.4 Mass sensing based on a circuit cavity electromechanical system; Bibliography 10. A Hybrid Optomechanical System Based on Quantum Dot and DNA Molecules10.1 Model and theory; 10.2 Coherent optical spectrum; 10.3 Vibrational frequency measurement of DNA molecule; 10.4 Coupling strength determination between quantum dot and DNA molecule; 10.5 A protocol of tumor discrimination; Bibliography; Index |
| Record Nr. | UNINA-9910786967203321 |
|
Li Jin-Jin, author
|
||
| Singapore, : World Scientific, 2013 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Generalized optomechanics and its applications : quantum optical properties of generalized optomechanical system / / Jin-Jin Li, Shanghai Jiao Tong University, China, Ka-Di Zhu, Shanghai Jiao Tong University, China
| Generalized optomechanics and its applications : quantum optical properties of generalized optomechanical system / / Jin-Jin Li, Shanghai Jiao Tong University, China, Ka-Di Zhu, Shanghai Jiao Tong University, China |
| Autore | Li Jin-Jin, author |
| Pubbl/distr/stampa | Singapore, : World Scientific, 2013 |
| Descrizione fisica | 1 online resource (xi, 234 pages) : illustrations (some color) |
| Disciplina | 535.15 |
| Collana | Gale eBooks |
| Soggetto topico | Optomechanics |
| ISBN | 981-4417-04-1 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Preface; Acknowledgments; Contents; 1. Introduction; 1.1 Optomechanical systems; 1.2 Previous research; 1.3 Recent development; 1.4 Hallmarks of optomechanical systems; 1.5 Generalized optomechanical systems; Bibliography; 2. Theoretical Treatments in Generalized Optomechanical Systems; 2.1 Heisenberg equation ofmotion; 2.2 Density matrix approach; 2.3 Quantum Heisenberg-Langevin equation; Bibliography; 3. Light Propagation in Cavity Optomechanical System; 3.1 Fast light and slow light; 3.2 All-optically controlled quantum memory; 3.3 Measurement of vacuum Rabi splitting
3.4 Measurement of resonator's frequency3.5 An optomechanical transistor; Bibliography; 4. Cavity Optomechanical System with Bose-Einstein Condensate; 4.1 Slow light; 4.2 All-optical transistor; 4.3 Single photon router; 4.4 Nonlinear all-optical Kerr switch; Bibliography; 5. The Smallest Generalized Optomechanical System - a Single Quantum Dot; 5.1 Two hallmarks of a single quantum dot as generalized optomechanical system; 5.2 Phonon induced coherent optical spectroscopy; 5.3 Measurement the frequency of LO-phonon; 5.4 Slow light and fast light; 5.5 A quantum optical transistor; Bibliography 6. Nanomechanical Resonator Coupled to a Single Quantum Dot6.1 Mechanically induced coherent population oscillation (MICPO); 6.2 Measurement of vibrational frequency of NR; 6.3 Measurement of coupling strength between NR and QD; 6.4 Measurement of lifetime of NR; 6.5 A single photon router; 6.6 All-optical Kerr switch; Bibliography; 7. Nanomechanical Resonator Coupled to a Hybrid Nanostructure; 7.1 Theory; 7.2 Coherent optical spectrum enhancement; 7.3 All-optical Kerr modulator; 7.4 Surface plasmon enhanced optical mass sensing; Bibliography 8. Optomechanical System with a Carbon Nanotube Resonator8.1 Theory; 8.2 Coherent optical spectroscopy; 8.3 Slow light and superluminal light; 8.4 Quantum optical transistor; 8.5 Nonlinear optical Kerr modulator; 8.6 All-optical mass sensor with a carbon nanotube; 8.7 Surface plasmon enhanced optical mass sensor; Bibliography; 9. A Circuit Cavity Electromechanical System; 9.1 Coherent optical spectrum; 9.2 Single-photon router with a cavity electromechanical system; 9.3 Controllable nonlinear responses; 9.4 Mass sensing based on a circuit cavity electromechanical system; Bibliography 10. A Hybrid Optomechanical System Based on Quantum Dot and DNA Molecules10.1 Model and theory; 10.2 Coherent optical spectrum; 10.3 Vibrational frequency measurement of DNA molecule; 10.4 Coupling strength determination between quantum dot and DNA molecule; 10.5 A protocol of tumor discrimination; Bibliography; Index |
| Record Nr. | UNINA-9910807338903321 |
|
Li Jin-Jin, author
|
||
| Singapore, : World Scientific, 2013 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||