Phase shaping of single-photon wave packets

Although the phase of a coherent light field can be precisely known, this is not true for the phase of the individual photons that create the field, considered individually 1 . Phase changes within single-photon wave packets, however, have observable effects. In fact, actively controlling the phase...

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Published inNature photonics Vol. 3; no. 8; pp. 469 - 472
Main Authors Moehring, D. L, Specht, H. P, Bochmann, J, Mücke, M, Weber, B, Figueroa, E, Rempe, G
Format Journal Article
LanguageEnglish
Published London Nature Publishing Group UK 01.08.2009
Nature Publishing Group
Subjects
Applied and Technical Physics
Classical and quantum physics: mechanics and fields
Exact sciences and technology
letter
Physics
Physics and Astronomy
Quantum communication
Quantum information
Quantum Physics
Phase shift
Coherent radiation
Single photon
Quantum optics
Photon pair
Quantum interference phenomena
Quantum communication
Wave packets
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Abstract Although the phase of a coherent light field can be precisely known, this is not true for the phase of the individual photons that create the field, considered individually 1 . Phase changes within single-photon wave packets, however, have observable effects. In fact, actively controlling the phase of individual photons has been identified as a powerful resource for quantum communication protocols 2 , 3 . Here we demonstrate arbitrary phase control of a single photon. The phase modulation is applied without affecting the photon's amplitude profile and is verified by means of a two-photon quantum interference measurement 4 , 5 , demonstrating fermionic spatial behaviour of photon pairs. Combined with previously demonstrated control of a single photon's amplitude 6 , 7 , 8 , 9 , 10 , frequency 11 , and polarization 12 , the fully deterministic phase shaping presented here allows for the complete control of single-photon wave packets. Arbitrary phase control within a single photon wave packet is demonstrated and verified by two-photon quantum interference measurements. Combined with the previously demonstrated ability to control a single photon's amplitude, frequency and polarization, the phase shaping presented here allows for the complete control of single-photon wave packets.
AbstractList Although the phase of a coherent light field can be precisely known, this is not true for the phase of the individual photons that create the field, considered individually. Phase changes within single-photon wave packets, however, have observable effects. In fact, actively controlling the phase of individual photons has been identified as a powerful resource for quantum communication protocols. Here we demonstrate arbitrary phase control of a single photon. The phase modulation is applied without affecting the photon's amplitude profile and is verified by means of a two-photon quantum interference measurement, demonstrating fermionic spatial behaviour of photon pairs. Combined with previously demonstrated control of a single photon's amplitude, frequency, and polarization, the fully deterministic phase shaping presented here allows for the complete control of single-photon wave packets.
Although the phase of a coherent light field can be precisely known, this is not true for the phase of the individual photons that create the field, considered individually 1 . Phase changes within single-photon wave packets, however, have observable effects. In fact, actively controlling the phase of individual photons has been identified as a powerful resource for quantum communication protocols 2 , 3 . Here we demonstrate arbitrary phase control of a single photon. The phase modulation is applied without affecting the photon's amplitude profile and is verified by means of a two-photon quantum interference measurement 4 , 5 , demonstrating fermionic spatial behaviour of photon pairs. Combined with previously demonstrated control of a single photon's amplitude 6 , 7 , 8 , 9 , 10 , frequency 11 , and polarization 12 , the fully deterministic phase shaping presented here allows for the complete control of single-photon wave packets. Arbitrary phase control within a single photon wave packet is demonstrated and verified by two-photon quantum interference measurements. Combined with the previously demonstrated ability to control a single photon's amplitude, frequency and polarization, the phase shaping presented here allows for the complete control of single-photon wave packets.
Author Figueroa, E
Mücke, M
Weber, B
Moehring, D. L
Rempe, G
Bochmann, J
Specht, H. P
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Keywords Phase shift
Coherent radiation
Single photon
Quantum optics
Photon pair
Quantum interference phenomena
Quantum communication
Wave packets
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Snippet Although the phase of a coherent light field can be precisely known, this is not true for the phase of the individual photons that create the field, considered...
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SubjectTerms Applied and Technical Physics
Classical and quantum physics: mechanics and fields
Exact sciences and technology
letter
Physics
Physics and Astronomy
Quantum communication
Quantum information
Quantum Physics
Title Phase shaping of single-photon wave packets
URI http://dx.doi.org/10.1038/nphoton.2009.115
https://link.springer.com/article/10.1038/nphoton.2009.115
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