Graph Theory: Quantum Walk
N.B. Singh
This audiobook is narrated by a digital voice.
"Graph Theory: Quantum Walk" explores how quantum computing enhances our understanding and applications of graphs. From basic principles to advanced algorithms, the book shows how quantum mechanics revolutionizes computation in graph theory. Whether you're a student, researcher, or enthusiast, discover the exciting potential where quantum principles meet graph theory, offering new insights and computational strategies in this dynamic field.
Duration - 3h 32m.
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. "Graph Theory: Quantum Walk" explores how quantum computing enhances our understanding and applications of graphs. From basic principles to advanced algorithms, the book shows how quantum mechanics revolutionizes computation in graph theory. Whether you're a student, researcher, or enthusiast, discover the exciting potential where quantum principles meet graph theory, offering new insights and computational strategies in this dynamic field. Duration - 3h 32m. Author - N.B. Singh. Narrator - Digital Voice Mary G. Published Date - Monday, 20 January 2025. Copyright - © 2024 N.B. Singh ©.
Language:
English
Preface
Duration:00:00:39
Introduction to Graph Theory
Duration:00:00:59
Definitions and Basic Concepts
Duration:00:06:59
Types of Graphs
Duration:00:04:37
Graph Representations
Duration:00:04:10
Graph Isomorphism
Duration:00:03:07
Graph Connectivity
Duration:00:04:08
Graph Algorithms
Duration:00:04:25
Basics of Quantum Computing
Duration:00:01:01
Qubits and Quantum States
Duration:00:03:17
Quantum Gates
Duration:00:03:24
Quantum Circuits
Duration:00:03:30
Quantum Entanglement
Duration:00:03:34
Quantum Measurement
Duration:00:04:15
Introduction to Quantum Algorithms
Duration:00:04:35
Classical Random Walks on Graphs
Duration:00:01:02
Definition and Basic Properties
Duration:00:04:05
Markov Chains
Duration:00:05:25
Stationary Distributions
Duration:00:04:31
Mixing Times
Duration:00:05:13
Hitting and Commute Times
Duration:00:04:45
Applications of Classical Random Walks
Duration:00:05:40
Quantum Walks: Fundamentals
Duration:00:01:03
Discrete-Time Quantum Walks
Duration:00:05:51
Continuous-Time Quantum Walks
Duration:00:05:43
Comparison with Classical Random Walks
Duration:00:06:08
Quantum Walk Models
Duration:00:05:04
Quantum Superposition and Interference
Duration:00:05:23
Mathematical Framework of Quantum Walks
Duration:00:05:12
Analysis of Quantum Walks on Graphs
Duration:00:01:07
Spectral Analysis
Duration:00:06:13
Localization Phenomena
Duration:00:05:44
Quantum Walk Speedup
Duration:00:05:04
Mixing and Hitting Times in Quantum Walks
Duration:00:05:10
Quantum Walk Search Algorithms
Duration:00:05:27
Algorithmic Applications
Duration:00:05:28
Applications of Quantum Walks
Duration:00:01:08
Quantum Search Algorithms
Duration:00:04:29
Graph Isomorphism Testing
Duration:00:04:10
Element Distinctness Problem
Duration:00:03:48
Quantum Walks in Physical Systems
Duration:00:04:11
Quantum Walks in Quantum Computation
Duration:00:04:21
Future Applications and Research Directions
Duration:00:04:19
Advanced Topics and Recent Research
Duration:00:01:09
Quantum Walks on Complex Networks
Duration:00:04:37
Quantum Walks with Decoherence
Duration:00:04:33
Topological Quantum Walks
Duration:00:05:57
Quantum Walks and Quantum Simulations
Duration:00:05:47
Recent Advances in Quantum Walk Theory
Duration:00:05:44
Open Problems and Research Challenges
Duration:00:06:02