Quantum Computing

Quantum Computing

Quantum Computing via YouTube Direct link

Implementation with Solid-State Super conducting Qubits

33 of 45

33 of 45

Implementation with Solid-State Super conducting Qubits

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Classroom Contents

Quantum Computing

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  1. 1 Introduction : Motivation & Overview
  2. 2 Introduction : Technical Details
  3. 3 Introduction : Basic tools
  4. 4 Computational Tools
  5. 5 Quantum Teleportation and Cryptography
  6. 6 Quantum Measurement and Teleportation
  7. 7 DJ Algorithm and Implementation Aspects
  8. 8 Grover's Algorithm
  9. 9 Basics of Shor's Algorithm
  10. 10 Shor's Algorithm and Quantum Fourier Transform(QFT)
  11. 11 Basics of Quantum Mechanics
  12. 12 Modern look at Quantum Mechanics
  13. 13 Basics of NMR
  14. 14 Concepts in NMR Quantum Computing
  15. 15 Laser Basics
  16. 16 lecture 16 - Continuous Wave Lasers
  17. 17 Pulsed Lasers
  18. 18 Optical Implementation 'Linear Approach'
  19. 19 Various Aspects of Linear Optical Quantum Computing
  20. 20 Laser Experimental Implementation for Grover's Algorithm
  21. 21 Optical Implementation
  22. 22 Solutions to problem set - 1
  23. 23 Basics of Ion Traps
  24. 24 Applications of Ion Traps in " QIQC "
  25. 25 Reviewing Concepts and clarifying problems - 1
  26. 26 Reviewing Concepts and clarifying problems - 2
  27. 27 Lecture 27 : Qubits used in Commercial Quantum Computing
  28. 28 Lecture 28 : Spintronics Quantum Computing
  29. 29 Back to Basics-I
  30. 30 Back to Basics-II
  31. 31 Understanding Implementation Issues from the Basics-I
  32. 32 Understanding Implementation Issues from the Basics-II
  33. 33 Implementation with Solid-State Super conducting Qubits
  34. 34 Concept of Density Matrix for Quantum Computing
  35. 35 Understanding the ensemble of Qubits from Density Matrix
  36. 36 Understanding Quantum Measurement , Entanglement etc. in Quantum Computing using Density Matrix
  37. 37 Principles: Quantum Mechanics and Computers
  38. 38 Measurements: Single vs Ensemble Averaged
  39. 39 Working of Quantum Computers: NMR QC
  40. 40 Academic Development in Quantum Computing - I
  41. 41 Academic Development in Quantum Computing - II
  42. 42 Commercial Development in Quantum Computing Implementation
  43. 43 Use of Atomic Quibts in Quantum Computing
  44. 44 Futuristic Aspects in Implementing Quantum Computing - I
  45. 45 Futuristic Aspects in Implementing Quantum Computing - II

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