Quantum Information Theory
N.B. Singh
This audiobook is narrated by a digital voice.
"Quantum Information Theory" is an introductory book designed for absolute beginners. It covers the foundational principles of quantum mechanics and information theory, exploring topics such as quantum computation, cryptography, error correction, and their practical applications. This accessible guide aims to demystify complex concepts, making quantum information science comprehensible and engaging for readers new to the field.
Duration - 3h 23m.
Author - N.B. Singh.
Narrator - Digital Voice Mary G.
Published Date - Monday, 20 January 2025.
Copyright - © 2024 N.B. Singh ©.
Location:
United States
Description:
This audiobook is narrated by a digital voice. "Quantum Information Theory" is an introductory book designed for absolute beginners. It covers the foundational principles of quantum mechanics and information theory, exploring topics such as quantum computation, cryptography, error correction, and their practical applications. This accessible guide aims to demystify complex concepts, making quantum information science comprehensible and engaging for readers new to the field. Duration - 3h 23m. Author - N.B. Singh. Narrator - Digital Voice Mary G. Published Date - Monday, 20 January 2025. Copyright - © 2024 N.B. Singh ©.
Language:
English
Preface
Duration:00:00:29
Introduction to Quantum Information Theory
Duration:00:01:00
Historical Background
Duration:00:08:02
Basic Concepts and Notation
Duration:00:03:20
Qubits and Quantum States
Duration:00:03:15
Quantum Gates and Circuits
Duration:00:03:25
Measurement in Quantum Mechanics
Duration:00:02:52
Applications of Quantum Information Theory
Duration:00:03:21
Quantum Mechanics and Quantum Computation
Duration:00:01:03
Postulates of Quantum Mechanics
Duration:00:04:10
Quantum State Space
Duration:00:03:32
Unitary Operations
Duration:00:03:40
Quantum Measurement Theory
Duration:00:00:47
Density Matrices and Mixed States
Duration:00:03:34
Quantum Computation Models
Duration:00:03:47
Quantum Algorithms
Duration:00:04:44
Quantum Entanglement and Bell’s Theorem
Duration:00:01:00
Concept of Quantum Entanglement
Duration:00:04:18
EPR Paradox
Duration:00:04:42
Bell’s Theorem and Bell Inequalities
Duration:00:04:30
Entanglement Measures
Duration:00:04:58
Quantum Entanglement in Computation
Duration:00:05:01
Applications of Entanglement
Duration:00:05:02
Entanglement in Quantum Networks
Duration:00:05:17
Quantum Channels and Communication
Duration:00:00:58
Quantum Channels and Their Properties
Duration:00:05:40
Channel Capacity
Duration:00:04:04
Classical Communication over Quantum Channels
Duration:00:03:44
Quantum Communication Protocols
Duration:00:03:43
Quantum Teleportation
Duration:00:02:56
Superdense Coding
Duration:00:02:42
Noise and Decoherence
Duration:00:02:43
Quantum Error Correction and Fault Tolerance
Duration:00:00:57
Quantum Errors and Noise Models
Duration:00:02:54
Quantum Error Correction Codes
Duration:00:02:49
Shor Code and Steane Code
Duration:00:02:40
Fault-Tolerant Quantum Computation
Duration:00:03:04
Error Thresholds and Fault-Tolerance
Duration:00:02:55
Concatenated Codes
Duration:00:03:07
Topological Quantum Codes
Duration:00:03:10
Quantum Cryptography and Security
Duration:00:00:59
Principles of Quantum Cryptography
Duration:00:03:19
Quantum Key Distribution (QKD)
Duration:00:03:16
BB84 and E91 Protocols
Duration:00:03:23
Quantum Cryptanalysis
Duration:00:03:34
Security Proofs in Quantum Cryptography
Duration:00:03:23
Quantum Digital Signatures
Duration:00:04:00
Future Directions in Quantum Cryptography
Duration:00:04:09
Advanced Topics in Quantum Information Theory
Duration:00:01:11
Quantum Complexity Theory
Duration:00:05:11
Quantum Machine Learning
Duration:00:05:30
Quantum Simulation
Duration:00:05:26
Quantum Metrology
Duration:00:05:17
Quantum Networks and the Quantum Internet
Duration:00:05:19
Recent Developments and Open Problems
Duration:00:05:13
Interdisciplinary Applications
Duration:00:05:22