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Superconducting qubit design using Q...

Halder, Subhojit.

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Superconducting qubit design using Qiskit metal = engineering of superconducting quantum architecture /

Record Type:	Electronic resources : Monograph/item
Title/Author:	Superconducting qubit design using Qiskit metal/ by Subhojit Halder ... [et al.].
Reminder of title:	engineering of superconducting quantum architecture /
other author:	Halder, Subhojit.
Published:	Berkeley, CA :Apress : : 2025.,
Description:	xix, 327 p. :ill., digital ;24 cm.
[NT 15003449]:	Chapter 1: Introduction: Superconducting Qubits and Their Realizations -- Chapter 2: Theory of Superconducting Qubits -- Chapter 3: Qiskit and Introduction to Qiskit Metal -- Chapter 4: Qiskit Metal and Introduction to Chip Design -- Chapter 5: Lumped Oscillator Model Analysis -- Chapter 6: Energy-Participation Ratio Method for Quantization and Analysis -- Chapter 7: Modelling the HamiltonianTransmon Qubit Cooper-Pair Box in the Charge Basis -- Chapter 8: Manufacturing: Fabrication and Packaging of Qubits.
Contained By:	Springer Nature eBook
Subject:	Quantum computing. -
Online resource:	https://doi.org/10.1007/979-8-8688-1504-1
ISBN:	9798868815041

Superconducting qubit design using Qiskit metal = engineering of superconducting quantum architecture /
Superconducting qubit design using Qiskit metalengineering of superconducting quantum architecture /[electronic resource] :by Subhojit Halder ... [et al.]. - Berkeley, CA :Apress :2025. - xix, 327 p. :ill., digital ;24 cm.

Chapter 1: Introduction: Superconducting Qubits and Their Realizations -- Chapter 2: Theory of Superconducting Qubits -- Chapter 3: Qiskit and Introduction to Qiskit Metal -- Chapter 4: Qiskit Metal and Introduction to Chip Design -- Chapter 5: Lumped Oscillator Model Analysis -- Chapter 6: Energy-Participation Ratio Method for Quantization and Analysis -- Chapter 7: Modelling the HamiltonianTransmon Qubit Cooper-Pair Box in the Charge Basis -- Chapter 8: Manufacturing: Fabrication and Packaging of Qubits.

Understand and implement superconducting Qubit Design using Qiskit Metal in the Quantum Computing environment. This book provides practical knowledge and step-by-step guidance on designing, analyzing, and fabricating quantum chips. The book begins with an introduction to the fundamentals of quantum computing, covering essential terms, concepts, and the history of quantum computers. It explores the differences between quantum and classical computers and provides an overview of superconducting qubits. Next, you will learn the theory and practical aspects of superconducting qubits. Detailed mathematical and computational analyses of different qubit types and circuits are provided, along with a comprehensive guide to creating quantum circuits using Qiskit and Qiskit Metal. You will learn to design quantum chips and analyze components such as Josephson junctions and qubit couplers, using advanced methods such as the Lumped Oscillator Model, Quasi-Lumped Oscillator Model, and Energy Participation Ratio Method. Finally, the book covers the fabrication of superconducting qubits, detailing the manufacturing process, requirements, and methods to address fabrication issues. After reading this book, you will be able to advance your understanding and skills in this cutting-edge field, making complex concepts accessible and providing a roadmap for practical application. What You Will Learn Install the Qiskit framework for creating basic quantum computing circuits Create your first superconducting qubit chip from scratch Formulate the back-end mathematical and computational model for the generated superconducting chips Understand the Quasi-LOM (lumped oscillator model) and how it differs from the LOM.

ISBN: 9798868815041

Standard No.: 10.1007/979-8-8688-1504-1doiSubjects--Topical Terms:

2115803
Quantum computing.

LC Class. No.: QA76.889

Dewey Class. No.: 006.3843

Superconducting qubit design using Qiskit metal = engineering of superconducting quantum architecture /
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245 0 0 $a Superconducting qubit design using Qiskit metal $h [electronic resource] : $b engineering of superconducting quantum architecture / $c by Subhojit Halder ... [et al.].
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505 0 $a Chapter 1: Introduction: Superconducting Qubits and Their Realizations -- Chapter 2: Theory of Superconducting Qubits -- Chapter 3: Qiskit and Introduction to Qiskit Metal -- Chapter 4: Qiskit Metal and Introduction to Chip Design -- Chapter 5: Lumped Oscillator Model Analysis -- Chapter 6: Energy-Participation Ratio Method for Quantization and Analysis -- Chapter 7: Modelling the HamiltonianTransmon Qubit Cooper-Pair Box in the Charge Basis -- Chapter 8: Manufacturing: Fabrication and Packaging of Qubits.
520 $a Understand and implement superconducting Qubit Design using Qiskit Metal in the Quantum Computing environment. This book provides practical knowledge and step-by-step guidance on designing, analyzing, and fabricating quantum chips. The book begins with an introduction to the fundamentals of quantum computing, covering essential terms, concepts, and the history of quantum computers. It explores the differences between quantum and classical computers and provides an overview of superconducting qubits. Next, you will learn the theory and practical aspects of superconducting qubits. Detailed mathematical and computational analyses of different qubit types and circuits are provided, along with a comprehensive guide to creating quantum circuits using Qiskit and Qiskit Metal. You will learn to design quantum chips and analyze components such as Josephson junctions and qubit couplers, using advanced methods such as the Lumped Oscillator Model, Quasi-Lumped Oscillator Model, and Energy Participation Ratio Method. Finally, the book covers the fabrication of superconducting qubits, detailing the manufacturing process, requirements, and methods to address fabrication issues. After reading this book, you will be able to advance your understanding and skills in this cutting-edge field, making complex concepts accessible and providing a roadmap for practical application. What You Will Learn Install the Qiskit framework for creating basic quantum computing circuits Create your first superconducting qubit chip from scratch Formulate the back-end mathematical and computational model for the generated superconducting chips Understand the Quasi-LOM (lumped oscillator model) and how it differs from the LOM.
650 0 $a Quantum computing. $3 2115803
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