Physics:Quantum Amplitude damping: Difference between revisions

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{{Short description|Quantum noise channel describing energy relaxation}}
{{Short description|Quantum noise channel describing energy relaxation}}
{{Quantum book backlink|Open quantum systems}}
{{Quantum article nav|previous=Physics:Quantum Kraus operators|previous label=Kraus operators|next=Physics:Quantum Phase damping|next label=Phase damping}}
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{{ScholarlyWiki page top
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{{Quantum article nav|previous=Physics:Quantum Kraus operators|previous label=Kraus operators|next=Physics:Quantum Depolarizing channel|next label=Depolarizing channel}}
|image=[[File:Quantum_Amplitude_damping_educational_yellow.png|430px|Amplitude damping: an excited quantum state relaxes and releases energy into its environment.]]
|image=[[File:Quantum_Amplitude_damping_educational_yellow.png|430px|Amplitude damping: an excited quantum state relaxes and releases energy into its environment.]]
|text='''Quantum Amplitude damping''' is a planned ScholarlyWiki page in the Quantum Collection about energy relaxation in noisy quantum systems.
|text=Amplitude damping is a Book I topic in the Quantum Collection. It is a quantum noise process that models energy relaxation from an excited state to a lower-energy state. In a qubit, amplitude damping describes processes such as spontaneous emission, photon loss, or decay from |1> toward |0>. It is usually represented by Kraus operators or by a master equation for an open quantum system. The channel is important in quantum computing because real qubits lose excitation to their environment. Understanding amplitude damping helps connect microscopic dissipation, decoherence, error correction, and the engineering of longer-lived quantum memories.
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== Overview ==
== Overview ==
Placeholder: describe amplitude damping as a quantum noise process in which excitation is lost to an environment.
Placeholder: describe amplitude damping as a quantum noise process in which excitation is lost to an environment.

Latest revision as of 22:58, 23 May 2026

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Amplitude damping is a Book I topic in the Quantum Collection. It is a quantum noise process that models energy relaxation from an excited state to a lower-energy state. In a qubit, amplitude damping describes processes such as spontaneous emission, photon loss, or decay from

Overview

Placeholder: describe amplitude damping as a quantum noise process in which excitation is lost to an environment.

Key ideas

Placeholder: cover relaxation, photon loss, spontaneous emission, qubit noise, open-system dynamics.

Relaxation process

Placeholder: develop this section with definitions, examples, formulas, and links to related Quantum Collection pages.

Qubit channel

Placeholder: develop this section with definitions, examples, formulas, and links to related Quantum Collection pages.

Physical examples

Placeholder: develop this section with definitions, examples, formulas, and links to related Quantum Collection pages.

Relation to decoherence

Placeholder: develop this section with definitions, examples, formulas, and links to related Quantum Collection pages.

See also

Table of contents (217 articles)

Index

Full contents

References


Author: Harold Foppele


Source attribution: Physics:Quantum Amplitude damping

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