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Lectures

1. Introduction to Quantum Computing
2. Lecture Notes on Multiple Qubit Gates and Quantum Algorithms
3. Lecture Notes on Quantum Mechanics: Wave Reflection, Virtual Lab, Linear Algebra and Hilbert Spaces
4. Lecture Notes on Matrix Representation of Linear Operators and Basis Transformations
5. Lecture Notes on Operators and Eigenvalue Problems in Quantum Mechanics
6. Lecture Notes on Tensor Products, Spectral Representation, and Matrix Decompositions
7. Lecture Notes on Linear Algebra and Introduction to Quantum Mechanics
8. Lecture Notes on Quantum Mechanics and Quantum Computing
9. Lecture Notes on Quantum Mechanics: Measurement, Entanglement, and Density Operators
10. Lecture Notes on Density Matrices
11. Lecture Notes on Composite Quantum Systems and Entanglement
12. Lecture Notes on Advanced Quantum Mechanics: Bell’s Theorem, Zirson Inequality, and Density Matrix
13. Quantum Computer Implementation and Related Concepts
14. Lecture Notes on Quantum Computing with Harmonic Oscillators and Photons
15. Lecture Notes on Quantum Computing
16. Lecture Notes on Quantum Computing: Foundations and Research
17. Lecture Notes on Quantum Computation: Unitary Operations and Quantum Gates
18. Lecture Notes on Quantum Computation - Single and Two-Qubit Gates
19. Lecture Notes on Quantum Circuit Synthesis and Complexity
20. Lecture Notes on Quantum Algorithms: Deutsch-Josa and Phase Kickback
21. Lecture Notes on Quantum Algorithms and Fourier Transform
22. Lecture Notes on Quantum Algorithms
23. Lecture Notes on Quantum Algorithms and Protocols
24. Lecture Notes on Quantum Information: Super Dense Coding, Teleportation, Error Correction, and Entropy