Physical Realizations of Quantum Computing : Are the Divincenzo Criteria Fulfilled in 2004? (With Cd-Rom).

The contributors of this volume are working at the forefront of various realizations of quantum computers. They survey the recent developments in each realization, in the context of the DiVincenzo criteria, including nuclear magnetic resonance, Josephson junctions, quantum dots, and trapped ions. Th...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Nakahara, Mikio
Otros Autores: Kanemitsu, Shigeru, Salomaa, Martti M., Takagi, Shin
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Singapore : World Scientific Publishing Company, 2006.
Temas:
Quantum computers > Congresses.
Ordinateurs quantiques > Congrès.
Quantum computers
Conference papers and proceedings
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Preface ; Martti Mikael Salomaa (1946-2004) ; DiVincenzo Criteria and Beyond ; 1. Introduction ; 2. DiVincenzo Criteria ; 3. Physical Realizations ; 4. ARDA QIST Roadmap ; 5. Beyond DiVincenzo Criteria ; 6. Summary ; References.
  • Single-Electron Charge and Spin Qubit in Semiconductor Quantum Dots 1. Introduction ; 2. Charge qubit in a double quantum dot ; 3. Electron spin qubit ; 4. Summary ; References ; Superconducting Quantum Computing: Status and Prospects ; 1. Why Josephson qubits?
  • 2. Solid-state quantum computation 3. Superconductivity and the Josephson effect ; 4. Superconducting quantum junctions ; 5. Different types of superconducting qubits ; 6. Experimental achievements ; 7. Decoherence ; 8. Coupled qubits and beyond ; 9. Summary ; References.
  • Controlling Three Atomic Qubits 1. Introduction ; 2. Experimental setup ; 3. Preparing GHZ- and W-states ; 4. Projection of the quantum states by measurement ; 5. Selective read-out of a quantum register ; 6. Conditioned single qubit operations ; 7. Teleportation ; References.
  • Liquid-State NMR Quantum Computer: Hamiltonian Formalism and Experiments 1. Introduction ; 2. NMR Primer ; 3. Hamiltonians for two-qubit molecules ; 4. Density matrix for two spins ; 5. Quantum computation ; 6. DiVincenzo criteria ; References ; Optical Quantum Computation.

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