The theory of quantum information

By:

Watrous, John

Material type: Text

9781107180567

Subject(s):

DDC classification:

530.120 WAT-T

Contents:

1.1.Linear Algebra 1.2.Analysis, Convexity, and Probability Theory 1.3.Suggested References 2.Basic Notions of Quantum Information 2.1.Registers and States 2.2.Quantum Channels 2.3.Measurements 2.4.Exercises 2.5.Bibliographic Remarks 3.Similarity and Distance Among States and Channels 3.1.Quantum State Discrimination 3.2.The Fidelity Function 3.3.Channel Distances and Discrimination 3.4.Exercises 3.5.Bibliographic Remarks 4.Unital Channels and Majorization 4.1.Subclasses of Unital Channels 4.2.General Properties of Unital Channels 4.3.Majorization 4.4.Exercises 4.5.Bibliographic Remarks 5.Quantum Entropy and Source Coding 5.1.Classical Entropy 5.2.Quantum Entropy 5.3.Source Coding 5.4.Exercises 5.5.Bibliographic Remarks 6.Bipartite Entanglement 6.1.Separability 6.2.Manipulation of Entanglement 6.3.Phenomena Associated With Entanglement 6.4.Exercises 6.5.Bibliographic Remarks 7.Permutation Invariance and Unitarily Invariant Measures 7.1.Permutation-Invariant Vectors and Operators 7.2.Unitarily Invariant Probability Measures 7.3.Measure Concentration and Its Applications 7.4.Exercises 7.5.Bibliographic Remarks 8.Quantum Channel Capacities 8.1.Classical Information Over Quantum Channels 8.2.Quantum Information Over Quantum Channels 8.3.Non-Additivity and Super-Activation 8.4.Exercises 8.5.Bibliographic Remarks

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Holdings
Item type	Current library	Collection	Call number	Status	Date due	Barcode	Item holds	Course reserves
Books	IIITD Reference	Physics	REF 530.120 WAT-T (Browse shelf(Opens below))	Checked out Not for loan	09/10/2024	012737		Quantum Information Theory (New) UG/PG (REST) WNT24

Total holds: 0

Includes bibliographical references and index.

1.1.Linear Algebra
1.2.Analysis, Convexity, and Probability Theory
1.3.Suggested References 2.Basic Notions of Quantum Information 2.1.Registers and States 2.2.Quantum Channels 2.3.Measurements 2.4.Exercises 2.5.Bibliographic Remarks 3.Similarity and Distance Among States and Channels 3.1.Quantum State Discrimination 3.2.The Fidelity Function 3.3.Channel Distances and Discrimination 3.4.Exercises 3.5.Bibliographic Remarks 4.Unital Channels and Majorization
4.1.Subclasses of Unital Channels
4.2.General Properties of Unital Channels
4.3.Majorization
4.4.Exercises
4.5.Bibliographic Remarks 5.Quantum Entropy and Source Coding
5.1.Classical Entropy
5.2.Quantum Entropy
5.3.Source Coding
5.4.Exercises
5.5.Bibliographic Remarks 6.Bipartite Entanglement
6.1.Separability
6.2.Manipulation of Entanglement
6.3.Phenomena Associated With Entanglement
6.4.Exercises 6.5.Bibliographic Remarks 7.Permutation Invariance and Unitarily Invariant Measures 7.1.Permutation-Invariant Vectors and Operators
7.2.Unitarily Invariant Probability Measures
7.3.Measure Concentration and Its Applications
7.4.Exercises
7.5.Bibliographic Remarks 8.Quantum Channel Capacities
8.1.Classical Information Over Quantum Channels
8.2.Quantum Information Over Quantum Channels
8.3.Non-Additivity and Super-Activation
8.4.Exercises
8.5.Bibliographic Remarks

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