Quantum carburettor effect for photon number shifting

Jennifer Radtke, John Jeffers, Daniel Oi

Research output: Contribution to conferencePoster

Abstract

Light’s bosonic nature leads to counterintuitive bunching effects. We describe a new experimentally-testable one in which single photons are conditionally sucked through a highly-reflecting beam splitter by a coherent state.
LanguageEnglish
Pages52-53
Publication statusPublished - 1 Sep 2015
EventQUAMP 2015 - University of Sussex, Brighton, United Kingdom
Duration: 1 Sep 20154 Sep 2015

Conference

ConferenceQUAMP 2015
CountryUnited Kingdom
CityBrighton
Period1/09/154/09/15

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bunching
beam splitters
photons

Keywords

  • quantum carburettor
  • non-gaussian operations
  • quantum information processing

Cite this

Radtke, J., Jeffers, J., & Oi, D. (2015). Quantum carburettor effect for photon number shifting. 52-53. Poster session presented at QUAMP 2015, Brighton, United Kingdom.
Radtke, Jennifer ; Jeffers, John ; Oi, Daniel. / Quantum carburettor effect for photon number shifting. Poster session presented at QUAMP 2015, Brighton, United Kingdom.
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title = "Quantum carburettor effect for photon number shifting",
abstract = "Light’s bosonic nature leads to counterintuitive bunching effects. We describe a new experimentally-testable one in which single photons are conditionally sucked through a highly-reflecting beam splitter by a coherent state.",
keywords = "quantum carburettor, non-gaussian operations, quantum information processing",
author = "Jennifer Radtke and John Jeffers and Daniel Oi",
year = "2015",
month = "9",
day = "1",
language = "English",
pages = "52--53",
note = "QUAMP 2015 ; Conference date: 01-09-2015 Through 04-09-2015",

}

Radtke, J, Jeffers, J & Oi, D 2015, 'Quantum carburettor effect for photon number shifting' QUAMP 2015, Brighton, United Kingdom, 1/09/15 - 4/09/15, pp. 52-53.

Quantum carburettor effect for photon number shifting. / Radtke, Jennifer; Jeffers, John; Oi, Daniel.

2015. 52-53 Poster session presented at QUAMP 2015, Brighton, United Kingdom.

Research output: Contribution to conferencePoster

TY - CONF

T1 - Quantum carburettor effect for photon number shifting

AU - Radtke, Jennifer

AU - Jeffers, John

AU - Oi, Daniel

PY - 2015/9/1

Y1 - 2015/9/1

N2 - Light’s bosonic nature leads to counterintuitive bunching effects. We describe a new experimentally-testable one in which single photons are conditionally sucked through a highly-reflecting beam splitter by a coherent state.

AB - Light’s bosonic nature leads to counterintuitive bunching effects. We describe a new experimentally-testable one in which single photons are conditionally sucked through a highly-reflecting beam splitter by a coherent state.

KW - quantum carburettor

KW - non-gaussian operations

KW - quantum information processing

UR - http://quamp2015.iopconfs.org/home

UR - http://quamp2015.iopconfs.org/IOP/media/uploaded/EVIOP/event_678/Online_abstract_book.pdf

M3 - Poster

SP - 52

EP - 53

ER -

Radtke J, Jeffers J, Oi D. Quantum carburettor effect for photon number shifting. 2015. Poster session presented at QUAMP 2015, Brighton, United Kingdom.

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Projects

Doctoral Training Partnership (DTA - University of Strathclyde) | Radtke, Jennifer

Project: Research Studentship - Internally AllocatedResearch Studentship (Internally Allocated)