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Introduction to Quantum Computing
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INDEX
  1. Introduction to Quantum Computing Lecture 3: Qubit Technologies
  2. Quantum Turing Machines
  3. Course Outline
  4. Lecture Outline
  5. Superposition and ket Notation
  6. 1-qubit state and Bloch sphere(Phase)
  7. 2-bit status
  8. 3-bit states
  9. Reversible Gates
  10. Quantum Algorithms
  11. Grover's Search
  12. Shor's Factoring Algorithm
  13. Summary: Characteristics of QC
  14. Lecture Outline
  15. DiVincenzofs Criteria
  16. Qubit Representations
  17. Problems
  18. A Few Physical Experiments
  19. Physical Realization
  20. Examples of Qubits
  21. Lecture Outline
  22. Technologies Reviewed
  23. Liquid Solution NMR
  24. All-Silicon Quantum Computer
  25. Overview
  26. Keio Choice of System and Material
  27. Fabrication: 29Si Atomic Chain
  28. Kane Solid-State NMR
  29. Semiconductor nanostructure
  30. Quantum dot in the Coulomb blockade regime
  31. Quantum dot artificial atom
  32. Environment surrounding a QD
  33. Double quantum dot device
  34. Measurement system
  35. Josephson Junction Charge (NEC)
  36. JJ Phase (NIST, USA)
  37. JJ Flux (Delft)
  38. Ion Trap
  39. Ion Trap
  40. Optical Lattice (Atoms)
  41. Ion Trap
  42. Optical Lattice (Atoms)
  43. All-Optical (Photons)
  44. Lecture Outline
  45. Comparison
  46. Comparison (2)
  47. By the Numbers
  48. Quantum Error Correction and the Threshold Theorem
  49. Wrap-Up
  50. Wrap-Up (2)
  51. Upcoming Lectures
  52. Question from TU, Nepal
  53. Question from ITB, Indonesia
  54. Question from TU, Nepal