Physics:Quantum BB84: Difference between revisions

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{{Short description|Quantum key distribution protocol using non-orthogonal bases}}
{{Short description|Quantum key distribution protocol using non-orthogonal bases}}
{{Quantum book backlink|Quantum information and computing}}
{{Quantum article nav|previous=Physics:Quantum Gates and circuits|previous label=Gates and circuits|next=Physics:Quantum No-cloning theorem|next label=No-cloning theorem}}
{{ScholarlyWiki page top
{{ScholarlyWiki page top
|backlink={{Quantum book backlink|Quantum information and computing}}
|backlink=
{{Quantum article nav|previous=Physics:Quantum Gates and circuits|previous label=Gates and circuits|next=Physics:Quantum No-cloning theorem|next label=No-cloning theorem}}
 
|image=[[File:Quantum_BB84_educational_yellow.png|430px|BB84 quantum key distribution: basis choices, photon transmission, and eavesdropping checks.]]
|image=[[File:Quantum_BB84_educational_yellow.png|430px|BB84 quantum key distribution: basis choices, photon transmission, and eavesdropping checks.]]
|text='''Quantum BB84''' is a planned ScholarlyWiki page in the Quantum Collection about the BB84 quantum key distribution protocol.
|text='''Quantum BB84''' is a planned ScholarlyWiki page in the Quantum Collection about the BB84 quantum key distribution protocol.
}}
}}
== Overview ==
== Overview ==
Placeholder: explain how Alice and Bob use non-orthogonal polarization or spin bases to establish a shared secret key and detect eavesdropping.
Placeholder: explain how Alice and Bob use non-orthogonal polarization or spin bases to establish a shared secret key and detect eavesdropping.

Revision as of 11:32, 22 May 2026

← Back to Quantum information and computing Book I
← Previous : Gates and circuits
Next : No-cloning theorem →


Quantum BB84 is a planned ScholarlyWiki page in the Quantum Collection about the BB84 quantum key distribution protocol.

Overview

Placeholder: explain how Alice and Bob use non-orthogonal polarization or spin bases to establish a shared secret key and detect eavesdropping.

Key ideas

Placeholder: cover basis choice, quantum measurement disturbance, sifted keys, error checking, privacy amplification.

Protocol idea

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

Quantum states and bases

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

Eavesdropping and error rates

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

Security role in quantum information

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 BB84

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