Maintenance script: Create Quantum information scaffold page

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Create Quantum information scaffold page

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{{Short description|Maximally entangled two-qubit quantum state}}

{{ScholarlyWiki page top
|backlink={{Quantum book backlink|Quantum information and computing}}
{{Quantum article nav|previous=Physics:Quantum Entanglement|previous label=Entanglement|next=Physics:Quantum Gates and circuits|next label=Gates and circuits}}
|image=[[File:Quantum_Bell_state_educational_yellow.png|430px|Bell states as correlated two-qubit entangled states used in quantum information.]]
|text='''Quantum Bell state''' is a planned ScholarlyWiki page in the Quantum Collection about Bell states and two-qubit entanglement.
}}

== Overview ==
Placeholder: introduce Bell states as maximally entangled two-qubit states and explain why they are central in quantum information.

== Key ideas ==
Placeholder: cover entanglement, two-qubit correlations, Bell basis, quantum teleportation, superdense coding.

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

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

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

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

== See also ==
{{#invoke:PhysicsQC|tocHeadingAndList|Physics:Quantum basics/See also}}

== References ==
{{reflist|3}}

{{Author|Harold Foppele}}

{{Sourceattribution|Physics:Quantum Bell state|1}}

Physics:Quantum Bell state - Revision history

Maintenance script: Create Quantum information scaffold page