Optical Generation and Control of Quantum Coherence in Semiconductor Nanostructures
Slavcheva, Gabriela.
Optical Generation and Control of Quantum Coherence in Semiconductor Nanostructures [recurso electrónico] / edited by Gabriela Slavcheva, Philippe Roussignol. - XX, 338p. 150 illus., 5 illus. in color. online resource. - NanoScience and Technology, 0 1434-4904 ; . - NanoScience and Technology, 0 .
Carrier dynamics in quantum dots -- Decoherence of intraband transitions in InAs quantum dots -- Spectral diffusion dephasing and motional narrowing in single semiconductor quantum dots -- Optically-induced spin coherence in quantum dots -- Carrier spin dynamics in self-assembled quantum dots -- Optically induced spin rotations in quantum dots -- Ensemble spin coherence of singly charged InGaAs quantum dots -- Novel systems for coherent spin manipulation -- Optically controlled spin dynamics in a magnetically doped quantum dot -- Coherent magneto-optical activity in a single chiral carbon nanotube -- Exciton and spin coherence in quantum dot lattices -- Coherent light-matter states in semiconductor microcavities -- Quantum optics with interacting polaritons -- Spontaneous coherence within a gas of exciton-polaritons in Telluride microcavities -- Keldysh Green’s function approach to coherence in a non-equilibrium steady state: connecting Bose-Einstein condensation and lasing.
The unprecedented control of coherence that can be exercised in quantum optics of atoms and molecules has stimulated increasing efforts in extending it to solid-state systems. One motivation to exploit the coherent phenomena comes from the emergence of the quantum information paradigm, however many more potential device applications ranging from novel lasers to spintronics are all bound up with issues in coherence. The book focuses on recent advances in the optical control of coherence in excitonic and polaritonic systems as model systems for the complex semiconductor dynamics towards the goal of achieving quantum coherence control in solid-state. Special attention is given to the optical control of spin coherence. These front edge research topics are presented in the form of review articles by leading scientists.
9783642124914
Physics.
Quantum theory.
Physics.
Quantum Physics.
Quantum Information Technology, Spintronics.
Solid State Physics.
Spectroscopy and Microscopy.
Laser Technology, Photonics.
QC173.96-174.52
530.12
Optical Generation and Control of Quantum Coherence in Semiconductor Nanostructures [recurso electrónico] / edited by Gabriela Slavcheva, Philippe Roussignol. - XX, 338p. 150 illus., 5 illus. in color. online resource. - NanoScience and Technology, 0 1434-4904 ; . - NanoScience and Technology, 0 .
Carrier dynamics in quantum dots -- Decoherence of intraband transitions in InAs quantum dots -- Spectral diffusion dephasing and motional narrowing in single semiconductor quantum dots -- Optically-induced spin coherence in quantum dots -- Carrier spin dynamics in self-assembled quantum dots -- Optically induced spin rotations in quantum dots -- Ensemble spin coherence of singly charged InGaAs quantum dots -- Novel systems for coherent spin manipulation -- Optically controlled spin dynamics in a magnetically doped quantum dot -- Coherent magneto-optical activity in a single chiral carbon nanotube -- Exciton and spin coherence in quantum dot lattices -- Coherent light-matter states in semiconductor microcavities -- Quantum optics with interacting polaritons -- Spontaneous coherence within a gas of exciton-polaritons in Telluride microcavities -- Keldysh Green’s function approach to coherence in a non-equilibrium steady state: connecting Bose-Einstein condensation and lasing.
The unprecedented control of coherence that can be exercised in quantum optics of atoms and molecules has stimulated increasing efforts in extending it to solid-state systems. One motivation to exploit the coherent phenomena comes from the emergence of the quantum information paradigm, however many more potential device applications ranging from novel lasers to spintronics are all bound up with issues in coherence. The book focuses on recent advances in the optical control of coherence in excitonic and polaritonic systems as model systems for the complex semiconductor dynamics towards the goal of achieving quantum coherence control in solid-state. Special attention is given to the optical control of spin coherence. These front edge research topics are presented in the form of review articles by leading scientists.
9783642124914
Physics.
Quantum theory.
Physics.
Quantum Physics.
Quantum Information Technology, Spintronics.
Solid State Physics.
Spectroscopy and Microscopy.
Laser Technology, Photonics.
QC173.96-174.52
530.12
