| Titre : |
A First Introduction to Quantum Computing and Information |
| Type de document : |
texte imprimé |
| Auteurs : |
Bernard Zygelman, Auteur |
| Editeur : |
springer |
| Année de publication : |
2025 |
| Importance : |
300 P |
| Présentation : |
ILL |
| Format : |
6.1 × 0.68 × 9.25 cm |
| ISBN/ISSN/EAN : |
978-3-031-66424-3 |
| Langues : |
Anglais (eng) Langues originales : Anglais (eng) |
| Mots-clés : |
Quantum Computing
Quantum Information Science (QIS)
Qubits
Quantum Gates and Circuits
Quantum Algorithms
Quantum Error Correction
Adiabatic Quantum Computing
Mathematica Simulations. |
| Résumé : |
Foundation: The book begins by establishing the necessary mathematical and physical, focusing on linear algebra and the basic principles of quantum mechanics required to understand qubits and quantum states.
Quantum Mechanics Simplified: It simplifies complex concepts like superposition, entanglement, and interference, presenting them through the lens of information theory.
Algorithms and Protocols: The text covers essential quantum protocols, such as quantum teleportation and cryptography (BB84), and dives into famous quantum algorithms, including Shor’s algorithm for factoring and Grover’s search algorithm.
Second Edition Enhancements: This updated edition expands significantly on the first, adding new chapters on:
Quantum Error Correction: How to protect quantum information from decoherence.
Adiabatic Quantum Computing: An alternative approach to quantum computation.
Topological Quantum Computing: Exploring more robust ways to build quantum hardware.
Practical Learning: A unique feature of this book is the integration of Mathematica simulations. These tools allow students to "experiment" with quantum circuits and visualize abstract concepts, making the learning process more interactive.
Objective:
The primary goal of Bernard Zygelman is to demystify the "weirdness" of quantum mechanics and provide students with the practical tools and theoretical knowledge needed to participate in the ongoing quantum revolution.
|
A First Introduction to Quantum Computing and Information [texte imprimé] / Bernard Zygelman, Auteur . - [S.l.] : springer, 2025 . - 300 P : ILL ; 6.1 × 0.68 × 9.25 cm. ISBN : 978-3-031-66424-3 Langues : Anglais ( eng) Langues originales : Anglais ( eng)
| Mots-clés : |
Quantum Computing
Quantum Information Science (QIS)
Qubits
Quantum Gates and Circuits
Quantum Algorithms
Quantum Error Correction
Adiabatic Quantum Computing
Mathematica Simulations. |
| Résumé : |
Foundation: The book begins by establishing the necessary mathematical and physical, focusing on linear algebra and the basic principles of quantum mechanics required to understand qubits and quantum states.
Quantum Mechanics Simplified: It simplifies complex concepts like superposition, entanglement, and interference, presenting them through the lens of information theory.
Algorithms and Protocols: The text covers essential quantum protocols, such as quantum teleportation and cryptography (BB84), and dives into famous quantum algorithms, including Shor’s algorithm for factoring and Grover’s search algorithm.
Second Edition Enhancements: This updated edition expands significantly on the first, adding new chapters on:
Quantum Error Correction: How to protect quantum information from decoherence.
Adiabatic Quantum Computing: An alternative approach to quantum computation.
Topological Quantum Computing: Exploring more robust ways to build quantum hardware.
Practical Learning: A unique feature of this book is the integration of Mathematica simulations. These tools allow students to "experiment" with quantum circuits and visualize abstract concepts, making the learning process more interactive.
Objective:
The primary goal of Bernard Zygelman is to demystify the "weirdness" of quantum mechanics and provide students with the practical tools and theoretical knowledge needed to participate in the ongoing quantum revolution.
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A First Introduction to Quantum Computing and Information 
