Quantum Entanglement
N.B. Singh
This audiobook is narrated by a digital voice.
"Quantum Entanglement explores the profound implications of one of quantum mechanics' most enigmatic phenomena. From its foundational principles to cutting-edge applications in quantum computing and beyond, this book delves into the intricate web of entanglement. Through detailed discussions and accessible explanations, readers embark on a journey through experiments, theoretical frameworks, and futuristic prospects, uncovering how entanglement challenges our understanding of reality and promises revolutionary advancements in technology and science."
Duration - 2h 43m.
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 Entanglement explores the profound implications of one of quantum mechanics' most enigmatic phenomena. From its foundational principles to cutting-edge applications in quantum computing and beyond, this book delves into the intricate web of entanglement. Through detailed discussions and accessible explanations, readers embark on a journey through experiments, theoretical frameworks, and futuristic prospects, uncovering how entanglement challenges our understanding of reality and promises revolutionary advancements in technology and science." Duration - 2h 43m. Author - N.B. Singh. Narrator - Digital Voice Mary G. Published Date - Monday, 20 January 2025. Copyright - © 2024 N.B. Singh ©.
Language:
English
Preface
Duration:00:00:33
Introduction to Quantum Entanglement
Duration:00:01:03
Historical Background
Duration:00:04:15
Basic Concepts of Quantum Entanglement
Duration:00:04:57
Significance in Quantum Mechanics
Duration:00:08:40
Entanglement in Popular Science
Duration:00:03:54
Overview of the Book
Duration:00:03:47
Foundations of Quantum Mechanics
Duration:00:00:58
Principles of Quantum Theory
Duration:00:04:24
Wave-Particle Duality
Duration:00:04:35
Superposition Principle
Duration:00:03:48
Quantum States and Observables
Duration:00:04:46
Measurement and Collapse
Duration:00:05:01
Bell’s Theorem
Duration:00:04:42
Mathematical Framework of Entanglement
Duration:00:01:07
Linear Algebra in Quantum Mechanics
Duration:00:04:47
Tensor Products and Composite Systems
Duration:00:03:47
Entangled States and EPR Pairs
Duration:00:04:51
Schmidt Decomposition
Duration:00:04:19
Entanglement Measures and Quantification
Duration:00:03:24
Density Matrices and Mixed States
Duration:00:02:48
Experiments and Evidence of Entanglement
Duration:00:01:17
Historical Experiments
Duration:00:03:21
Bell Test Experiments
Duration:00:03:12
Aspect’s Experiments
Duration:00:02:39
Quantum Optics and Photons
Duration:00:02:35
Quantum Dots and Solid-State Systems
Duration:00:03:02
Recent Advances in Experimental Techniques
Duration:00:03:26
Applications of Quantum Entanglement
Duration:00:01:23
Quantum Cryptography
Duration:00:03:51
Quantum Teleportation
Duration:00:03:44
Quantum Dense Coding
Duration:00:03:07
Entanglement in Quantum Communication
Duration:00:03:35
Entanglement in Metrology and Sensing
Duration:00:03:28
Entanglement in Biological Systems
Duration:00:03:36
Quantum Entanglement in Quantum Computing
Duration:00:01:16
Quantum Gates and Circuits
Duration:00:03:31
Role of Entanglement in Algorithms
Duration:00:03:16
Entanglement in Quantum Error Correction
Duration:00:02:55
Entanglement in Quantum Simulation
Duration:00:02:49
Entanglement and Quantum Speedup
Duration:00:02:51
Scalable Quantum Computers
Duration:00:02:56
Future Directions and Challenges in Quantum Entanglement
Duration:00:01:19
Theoretical Challenges
Duration:00:03:11
Technological Hurdles
Duration:00:03:27
Scalability and Integration
Duration:00:03:58
Entanglement in Large Systems
Duration:00:03:20
Interdisciplinary Research
Duration:00:03:23
Future Prospects and Speculations
Duration:00:02:50