Spiniform phase-encoded metagratings entangling arbitrary rational-order orbital angular momentum

Spiniform phase-encoded metagratings entangling arbitrary rational-order orbital angular momentum

Quantum entanglements between integer-order and fractional-order orbital angular momentums (OAMs) have been previously discussed. However, the entangled nature of arbitrary rational-order OAM has long been considered a myth due to the absence of an effective strategy for generating arbitrary rationa...

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Published in:Light, science & applications Vol. 7; no. 3; p. 17156
Main Authors: Huang, Kun, Liu, Hong, Restuccia, Sara, Mehmood, Muhammad Q, Mei, Sheng-Tao, Giovannini, Daniel, Danner, Aaron, Padgett, Miles J, Teng, Jing-Hua, Qiu, Cheng-Wei
Format: Journal Article
Language:English
Published: London Nature Publishing Group UK 09-03-2018
Springer Nature B.V
Nature Publishing Group
Subjects:
639/624/400/482
639/766/1130/2799
639/766/400/1021
Applied and Technical Physics
Atomic
Classical and Continuum Physics
Information science
Lasers
Light
Microparticles
Molecular
Optical and Plasma Physics
Optical Devices
Optics
original-article
Photonics
Physics
Physics and Astronomy
Quantum theory
nanophotonics
orbital angular momentum
metasurface
superposition state
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Abstract Quantum entanglements between integer-order and fractional-order orbital angular momentums (OAMs) have been previously discussed. However, the entangled nature of arbitrary rational-order OAM has long been considered a myth due to the absence of an effective strategy for generating arbitrary rational-order OAM beams. Therefore, we report a single metadevice comprising a bilaterally symmetric grating with an aperture, creating optical beams with dynamically controllable OAM values that are continuously varying over a rational range. Due to its encoded spiniform phase, this novel metagrating enables the production of an average OAM that can be increased without a theoretical limit by embracing distributed singularities, which differs significantly from the classic method of stacking phase singularities using fork gratings. This new method makes it possible to probe the unexplored niche of quantum entanglement between arbitrarily defined OAMs in light, which could lead to the complex manipulation of microparticles, high-dimensional quantum entanglement and optical communication. We show that quantum coincidence based on rational-order OAM-superposition states could give rise to low cross-talks between two different states that have no significant overlap in their spiral spectra. Additionally, future applications in quantum communication and optical micromanipulation may be found. Orbital angular momentum: device generates beams with variable angular momentum A device that can generate light beams with continuously variable values of orbital angular momentum (OAM) has been demonstrated. Quantum entanglement between photons with integer or fractional OAM has been realized, but until now it has been difficult to generate light beams that have an arbitrary rational amount of OAM. Now, Cheng-Wei Qiu of the National University of Singapore and co-workers have designed and tested an analog vortex transmitter of rational-order OAM, that consists of two tilted gratings under a circular aperture. Plane waves of green light incident on the aperture are converted into vortex beams with a continuously controllable amount of OAM that is determined by the effective variation in size of the aperture across the device. Potential applications for the device include selection and sorting of microparticles, spiral imaging and high-dimensional quantum entanglement.
AbstractList Quantum entanglements between integer-order and fractional-order orbital angular momentums (OAMs) have been previously discussed. However, the entangled nature of arbitrary rational-order OAM has long been considered a myth due to the absence of an effective strategy for generating arbitrary rational-order OAM beams. Therefore, we report a single metadevice comprising a bilaterally symmetric grating with an aperture, creating optical beams with dynamically controllable OAM values that are continuously varying over a rational range. Due to its encoded spiniform phase, this novel metagrating enables the production of an average OAM that can be increased without a theoretical limit by embracing distributed singularities, which differs significantly from the classic method of stacking phase singularities using fork gratings. This new method makes it possible to probe the unexplored niche of quantum entanglement between arbitrarily defined OAMs in light, which could lead to the complex manipulation of microparticles, high-dimensional quantum entanglement and optical communication. We show that quantum coincidence based on rational-order OAM-superposition states could give rise to low cross-talks between two different states that have no significant overlap in their spiral spectra. Additionally, future applications in quantum communication and optical micromanipulation may be found.
Quantum entanglements between integer-order and fractional-order orbital angular momentums (OAMs) have been previously discussed. However, the entangled nature of arbitrary rational-order OAM has long been considered a myth due to the absence of an effective strategy for generating arbitrary rational-order OAM beams. Therefore, we report a single metadevice comprising a bilaterally symmetric grating with an aperture, creating optical beams with dynamically controllable OAM values that are continuously varying over a rational range. Due to its encoded spiniform phase, this novel metagrating enables the production of an average OAM that can be increased without a theoretical limit by embracing distributed singularities, which differs significantly from the classic method of stacking phase singularities using fork gratings. This new method makes it possible to probe the unexplored niche of quantum entanglement between arbitrarily defined OAMs in light, which could lead to the complex manipulation of microparticles, high-dimensional quantum entanglement and optical communication. We show that quantum coincidence based on rational-order OAM-superposition states could give rise to low cross-talks between two different states that have no significant overlap in their spiral spectra. Additionally, future applications in quantum communication and optical micromanipulation may be found. Orbital angular momentum: device generates beams with variable angular momentum A device that can generate light beams with continuously variable values of orbital angular momentum (OAM) has been demonstrated. Quantum entanglement between photons with integer or fractional OAM has been realized, but until now it has been difficult to generate light beams that have an arbitrary rational amount of OAM. Now, Cheng-Wei Qiu of the National University of Singapore and co-workers have designed and tested an analog vortex transmitter of rational-order OAM, that consists of two tilted gratings under a circular aperture. Plane waves of green light incident on the aperture are converted into vortex beams with a continuously controllable amount of OAM that is determined by the effective variation in size of the aperture across the device. Potential applications for the device include selection and sorting of microparticles, spiral imaging and high-dimensional quantum entanglement.
Author Qiu, Cheng-Wei
Restuccia, Sara
Giovannini, Daniel
Teng, Jing-Hua
Danner, Aaron
Mehmood, Muhammad Q
Padgett, Miles J
Liu, Hong
Huang, Kun
Mei, Sheng-Tao
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  givenname: Kun
  surname: Huang
  fullname: Huang, Kun
  organization: Department of Electrical and Computer Engineering, National University of Singapore, Institute of Materials Research and Engineering, Agency for Science, Technology and Research, Department of Optics and Optical Engineering, University of Science and Technology of China
– sequence: 2
  givenname: Hong
  surname: Liu
  fullname: Liu, Hong
  organization: Institute of Materials Research and Engineering, Agency for Science, Technology and Research
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  givenname: Sara
  surname: Restuccia
  fullname: Restuccia, Sara
  organization: SUPA, School of Physics and Astronomy, University of Glasgow
– sequence: 4
  givenname: Muhammad Q
  surname: Mehmood
  fullname: Mehmood, Muhammad Q
  organization: Information Technology University of the Punjab
– sequence: 5
  givenname: Sheng-Tao
  surname: Mei
  fullname: Mei, Sheng-Tao
  organization: Department of Electrical and Computer Engineering, National University of Singapore, NUS Graduate School for Integrative Science and Engineering, National University of Singapore
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  givenname: Daniel
  orcidid: 0000-0003-0191-7227
  surname: Giovannini
  fullname: Giovannini, Daniel
  organization: The Edward S Rogers Department of Electrical and Computer Engineering, University of Toronto
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  givenname: Aaron
  orcidid: 0000-0002-9090-9626
  surname: Danner
  fullname: Danner, Aaron
  organization: Department of Electrical and Computer Engineering, National University of Singapore
– sequence: 8
  givenname: Miles J
  surname: Padgett
  fullname: Padgett, Miles J
  organization: SUPA, School of Physics and Astronomy, University of Glasgow
– sequence: 9
  givenname: Jing-Hua
  orcidid: 0000-0001-5331-3092
  surname: Teng
  fullname: Teng, Jing-Hua
  email: jh-teng@imre.a-star.edu.sg
  organization: Institute of Materials Research and Engineering, Agency for Science, Technology and Research
– sequence: 10
  givenname: Cheng-Wei
  surname: Qiu
  fullname: Qiu, Cheng-Wei
  email: eleqc@nus.edu.sg
  organization: Department of Electrical and Computer Engineering, National University of Singapore, NUS Graduate School for Integrative Science and Engineering, National University of Singapore, SZU-NUS Collaborative Innovation Center for Optoelectronic Science and Technology, Shenzhen University, NUS Suzhou Research Institute (NUSRI)
BackLink https://www.ncbi.nlm.nih.gov/pubmed/30839520$$D View this record in MEDLINE/PubMed
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ContentType Journal Article
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Issue 3
Keywords nanophotonics
orbital angular momentum
metasurface
superposition state
Language English
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Snippet Quantum entanglements between integer-order and fractional-order orbital angular momentums (OAMs) have been previously discussed. However, the entangled nature...
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SubjectTerms 639/624/400/482
639/766/1130/2799
639/766/400/1021
Applied and Technical Physics
Atomic
Classical and Continuum Physics
Information science
Lasers
Light
Microparticles
Molecular
Optical and Plasma Physics
Optical Devices
Optics
original-article
Photonics
Physics
Physics and Astronomy
Quantum theory
Title Spiniform phase-encoded metagratings entangling arbitrary rational-order orbital angular momentum
URI https://link.springer.com/article/10.1038/lsa.2017.156
https://www.ncbi.nlm.nih.gov/pubmed/30839520
https://www.proquest.com/docview/2012130041
https://search.proquest.com/docview/2188590778
https://pubmed.ncbi.nlm.nih.gov/PMC6060047
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