Single-photon detection from gated nanostructures
ORAL
Abstract
Single-photon detection with high efficiency and low dark count rates is of high importance for a wide range of optical measurements. In this work, we describe efforts to directly measure blue photons emanating from graphene and graphene nanoribbons that are gated at ~10 nm scales. Graphene nanostructures and nanoribbons exhibit remarkable nonlinear optical behavior when subjected to intense local electric fields [1,2]. The experimental signatures of these nonlinear processes are detected through interferometric methods [3]. The single-photon detection platform will allow quantification of these signatures by detection of sum-frequency-generated light in the far field.
[1] Sheridan, E. et al. Nano Lett. (2020) doi:10.1021/acs.nanolett.0c01379
[2] Sheridan, E. et al. APL Materials 9, 071101 (2021)
[3] L. Chen, et al., Light: Science & Appl. 8, 24 (2019).
[1] Sheridan, E. et al. Nano Lett. (2020) doi:10.1021/acs.nanolett.0c01379
[2] Sheridan, E. et al. APL Materials 9, 071101 (2021)
[3] L. Chen, et al., Light: Science & Appl. 8, 24 (2019).
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Presenters
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Pubudu G Wijesinghe
University of Pittsburgh
Authors
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Pubudu G Wijesinghe
University of Pittsburgh
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Erin C Sheridan
University of Pittsburgh, US Air Force Research Laboratory
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Melanie Dieterlen
University of Pittsburgh
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Ki-Tae Eom
University of Wisconsin Madison, University of Wisconsin - Madison, University of Wisconsin-Madison
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Chang-Beom Eom
University of Wisconsin - Madison
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Patrick R Irvin
University of Pittsburgh
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Jeremy Levy
University of Pittsburgh, Department of Physics and Astronomy, University of Pittsburgh