Testing the limits of human vision with quantum states of light: past, present, and future experiments
The human eye contains millions of rod photoreceptor cells, and each one is a single-photon detector. Whether people can actually see a single photon, which requires the rod signal to propagate through the rest of the noisy visual system and be perceived in the brain, has been the subject of researc...
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| Published in | arXiv.org |
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| Main Authors | , , , |
| Format | Paper Journal Article |
| Language | English |
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Ithaca
Cornell University Library, arXiv.org
21.06.2018
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| ISSN | 2331-8422 |
| DOI | 10.48550/arxiv.1806.08430 |
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| Abstract | The human eye contains millions of rod photoreceptor cells, and each one is a single-photon detector. Whether people can actually see a single photon, which requires the rod signal to propagate through the rest of the noisy visual system and be perceived in the brain, has been the subject of research for nearly 100 years. Early experiments hinted that people could see just a few photons, but classical light sources are poor tools for answering these questions. Single-photon sources have opened up a new area of vision research, providing the best evidence yet that humans can indeed see single photons, and could even be used to test quantum effects through the visual system. We discuss our program to study the lower limits of human vision with a heralded single-photon source based on spontaneous parametric downconversion, and present two proposed experiments to explore quantum effects through the visual system: testing the perception of superposition states, and using a human observer as a detector in a Bell test. |
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| AbstractList | Proc. SPIE 10659, Advanced Photon Counting Techniques XII, 1065903
(14 May 2018) The human eye contains millions of rod photoreceptor cells, and each one is a
single-photon detector. Whether people can actually see a single photon, which
requires the rod signal to propagate through the rest of the noisy visual
system and be perceived in the brain, has been the subject of research for
nearly 100 years. Early experiments hinted that people could see just a few
photons, but classical light sources are poor tools for answering these
questions. Single-photon sources have opened up a new area of vision research,
providing the best evidence yet that humans can indeed see single photons, and
could even be used to test quantum effects through the visual system. We
discuss our program to study the lower limits of human vision with a heralded
single-photon source based on spontaneous parametric downconversion, and
present two proposed experiments to explore quantum effects through the visual
system: testing the perception of superposition states, and using a human
observer as a detector in a Bell test. The human eye contains millions of rod photoreceptor cells, and each one is a single-photon detector. Whether people can actually see a single photon, which requires the rod signal to propagate through the rest of the noisy visual system and be perceived in the brain, has been the subject of research for nearly 100 years. Early experiments hinted that people could see just a few photons, but classical light sources are poor tools for answering these questions. Single-photon sources have opened up a new area of vision research, providing the best evidence yet that humans can indeed see single photons, and could even be used to test quantum effects through the visual system. We discuss our program to study the lower limits of human vision with a heralded single-photon source based on spontaneous parametric downconversion, and present two proposed experiments to explore quantum effects through the visual system: testing the perception of superposition states, and using a human observer as a detector in a Bell test. |
| Author | Kwiat, Paul G Victora, Michelle M Holmes, Rebecca M Wang, Ranxiao Frances |
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| BackLink | https://doi.org/10.48550/arXiv.1806.08430$$DView paper in arXiv https://doi.org/10.1117/12.2306092$$DView published paper (Access to full text may be restricted) |
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| Snippet | The human eye contains millions of rod photoreceptor cells, and each one is a single-photon detector. Whether people can actually see a single photon, which... Proc. SPIE 10659, Advanced Photon Counting Techniques XII, 1065903 (14 May 2018) The human eye contains millions of rod photoreceptor cells, and each one is a... |
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| SubjectTerms | Brain Experiments Light sources Photons Physics - Quantum Physics Quantum theory Superposition (mathematics) Vision Visual effects Visual perception Visual signals |
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| Title | Testing the limits of human vision with quantum states of light: past, present, and future experiments |
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