Advances in medicine and biology. Volume 4 /

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Berhardt, Leon V.
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Hauppauge, N.Y. : Lancaster : Nova Science ; Gazelle [distributor], 2010.
Colección:Advances in Medicine and Biology.
Temas:
Clinical medicine.
Biology > Research.
Clinical Medicine
Médecine clinique.
Biologie > Recherche.
HEALTH & FITNESS > Diseases > General.
MEDICAL > Clinical Medicine.
MEDICAL > Diseases.
MEDICAL > Evidence-Based Medicine.
MEDICAL > Internal Medicine.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • ADVANCES IN MEDICINE AND BIOLOGY. VOLUME 4
  • ADVANCES IN MEDICINE AND BIOLOGY. VOLUME 4
  • Contents
  • Preface
  • Physical and Bio-Medical Quantum Mechanical Informatiion Proocessing
  • (QMIP) in Real Systems
  • Abstract
  • 1. Introduction
  • 1.1. Similarities and Differences between Classical and Quantum Thinformation Processing
  • 1.2. The Liquid State Nuclear Magnetic Resonance (LS-NMR) and QMIP
  • 1.3. Incomplete Description of QM States
  • 1.4. Solid-State Technology and QMIP
  • 1.5. QMIP Coded on Light: Optical Lasers (Ion Traps, Optical Fibber, etc), THz Lasers(Quantum Dots, etc)1.6. General Concept-Controlled NOT Gate and Two Bit Operation, Courtesy[57]
  • 1.7. Non-Deterministic Polynomial Time-Complete (NP-C) and Satisfiability (SAT): LS(Liquid State)NMR QC, Courtesy[17]
  • 1.8. The Density Matrix Concept: LSNMR-QC, Courtesy[17]
  • 1.9. DNA QC -Quantum Gates (QGs)
  • 1.10. QMIP Different to Analogue to Digital Conversion (ATDC)
  • 2. Theory (Theoretical Schemes and Algorithms in QMIP)
  • 2.1. The EPR (Einstein Podolsky Rosen) Entangled States, Courtesy [30]2.2. Bellâ€?s Inequalities (BIs)
  • 2.2.1. Specific Locality Condition
  • 2.2.2. General Locality Condition (BI)
  • 2.2.3. Evaluation of an Experimental Scheme
  • 2.3. VBIs Deduced from the Output States of a Nondegenerate Parametric Amplifier (NOPA)- Wigner Function (WF) Approach (Parity Pseudo Spin System), Courtesy[54]
  • 2.4. EPR Entangled States : Violations of Bellâ€?s Ineqaulity (VBI) 2.4.1 Ion Trap Computer, Diagram 2, Courtesy[46, 53]
  • 2.5. N-state Rydberg Atom Data
  • Register Information Processing: Cs Atom Beam (Gaseous State), Groverâ€?s Algorithm, (Diagram 3), Courtesy [44]2.6. The Scaling of the qbits : Shorâ€?s Factoring Algorithm (SFA), Diagram 4, Courtesy [36]
  • 2.7. Deutscsch-Joza (D-J) Algorithm Ion Trap Quantum Computer (ITQC) : Electronic and Vibrational Quantum States
  • 40Ca+ Ion, Diagram 5, Courtesy [9]
  • 2.8. Cirac Zellar (C-Z)- Controlled NOT QG (Quantum Gate): Two-Individual 43Ca+ Excitation States and Common Vibrational Modes
  • Linear Paul Trap, Diagram 6, Courtesy [3]
  • 2.9. Liquid State NMR (LSNMR) Quantum Information Processing : 7-qbits, Diagram 7, Courtesy[1]2.10. Linear Optical Quantum Computation (LOQC) : One Photon -Two Optical Modes, Courtesy[22]
  • 2.11. Tomography and Spectroscopy (TS) : Phase Space Distribution (Wigner Function)
  • Three qbit Spin-1/2 Nuclei System, Liquid State-NMR (LSNMR), Diagram 9, Courtesy [2]
  • 2.12. Quantum Dots (QDs)
  • Terahertz Electrodynamics : A C-NOT Quantum Gate (Q G)
  • Quantum Dot (QD) Energy Levels (Resonance Cavity), Diagram 10, Courtesy[26]
  • ""2.13. Quantum Side-Bands Optical Field : Single Mode Squeezed Light Beam
  • EPR Entanglement, Diagram 11, Courtesy[21]""

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