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