List Of Quantum Computing ebooks.

Quantum Computation Lecture Notes from MIT

http://web.mit.edu/2.111/www/

Qubit.org :: A site dedicated to Quantum Computing

http://www.qubit.org/

Quantum Computing Lecture Notes ( Umesh Vazirani)

http://http.cs.berkeley.edu/~vazirani/qc.html

QCL :: Quantum Computing Language

http://tph.tuwien.ac.at/~oemer/qcl.html

Introduction to Quantum Computation

http://www.cacr.math.uwaterloo.ca/~mmosca/quantumcoursew02.htm

Table of Contents

Chapter I. An Invitation to Quantum Computation

Chapter II. Quantum Algorithms and Quantum Complexity Theory

Chapter III. Quantum Error Correcting Codes and Quantum Cryptography

Chapter IV. More Mathematical Connections

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# Lecture 1:  A Rosetta Stone for Quantum Computing

# Lecture 2: Three Quantum Algorithms

# Lecture 3: Quantum Hidden Subgroup Algorithms

# Lecture 4: An Entangled Tale of Quantun Entanglement

# Lecture 5: Distributed Quantum Computing

# Lecture 6: Topological Quantum Computing and the Jones Polynomial

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#  Volume 1: Part of a Rosetta Stone for Quantum Mechanics

# Volume 2: A Quick Glance at Quantum Cryptography (Final edition)

# Volume 3: Notes of Quantum Information Theory

# Volume 4: Informal Seminar Notes on Lie Groups

# Volume 5: A Rosetta Stone for Quantum Mechanics with an Introduction to Quantum Computation

# Volume 6: A Lecture on Peter Shor's Factoring Algorithm

# Volume 7: A Lecture on Lov Grover's Algorithm (

# Volume 8: A Talk on Quantum Cryptography:

Contents

1 Linear Algebra (short review)
2 Postulates of Quantum Mechanics
2.1 Postulate 1: A quantum bit . . . . .
2.2 Postulate 2: Evolution of quantum systems . . .
2.3 Postulate 3: Measurement . . .
2.4 Postulate 4: Multi-qubit systems . . .
3 Entanglement
4 Teleportation
5 Super-dense Coding
6 Deutsch’s Algorithm
6.1 Deutsch-Jozsa Algorithm . .
7 Bloch Sphere
7.1 Phase traveling backwards through control operations . . .
7.2 Phaseflips versus bitflips . . .
8 Universal Quantum Gates

Course Overview

Information is something that can be encoded in the state of a physical system, and a computation is a task that can be performed with a physically realizable device. Therefore, since the physical world is fundamentally quantum mechanical, the foundations of information theory and computer science should be sought in quantum physics.