Buch, Englisch, 184 Seiten, Format (B × H): 160 mm x 241 mm, Gewicht: 465 g
ISBN: 978-3-031-66476-2
Verlag: Springer Nature Switzerland
This book covers extensively the physical implementation of qubits and quantum architecture. The author demonstrates how quantum computing is implemented by the underlying physical implementation of qubits, including trapped ions, nitrogen vacancy centers, frozen neon, and other implementations. The book shows how, ultimately, the physical implementation of the qubit is the foundation of quantum computing, and that the choice of physical qubit will impact such things as decoherence times, computational efficiency, and even error rate. The book explores all the current approaches to physical qubit implementation and includes appendices that review basic quantum computing and physics.
Zielgruppe
Professional/practitioner
Autoren/Hrsg.
Fachgebiete
- Mathematik | Informatik EDV | Informatik Technische Informatik Computersicherheit Kryptographie, Datenverschlüsselung
- Technische Wissenschaften Elektronik | Nachrichtentechnik Nachrichten- und Kommunikationstechnik
- Naturwissenschaften Physik Quantenphysik
- Interdisziplinäres Wissenschaften Wissenschaften: Forschung und Information Informationstheorie, Kodierungstheorie
- Mathematik | Informatik EDV | Informatik Informatik Mathematik für Informatiker
Weitere Infos & Material
Chapter 1. Trapped Ion Quantum Computing.- Chapter 2. Superconducting Quantum Computing.- Chapter 3. Photonic Quantum Computing.- Chapter 4. Bose – Einstein Condensate.- Chapter 5. Nitrogen Vacancy Centers.- Chapter 6. Nuclear Magnetic Resonance Quantum Computing.- Chapter 7. Electron Based Quantum Computing.- Chapter 8. Fullerene Based Quantum Computers.- Chapter 9. D-Wave and Adiabatic Quantum Computing.- Chapter 10. Topological Quantum Computing.- Chapter 11. Neutral Atom Based Quantum Computing.- Chapter 12. Reducing Noise and Error Correcting.
