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Quantum random number generation using an on-chip nanowire plasmonic waveguide
by
Özdemir, Ş K
, Strydom, C
, Soleymani, S
, Tame, M S
in
Cryptography
/ Luminous intensity
/ nanophotonics
/ Nanowires
/ Plasmonics
/ quantum device
/ Quantum mechanics
/ quantum random number generation
/ quantum randomness
/ Random numbers
/ Waveguides
2024
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Quantum random number generation using an on-chip nanowire plasmonic waveguide
by
Özdemir, Ş K
, Strydom, C
, Soleymani, S
, Tame, M S
in
Cryptography
/ Luminous intensity
/ nanophotonics
/ Nanowires
/ Plasmonics
/ quantum device
/ Quantum mechanics
/ quantum random number generation
/ quantum randomness
/ Random numbers
/ Waveguides
2024
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Do you wish to request the book?
Quantum random number generation using an on-chip nanowire plasmonic waveguide
by
Özdemir, Ş K
, Strydom, C
, Soleymani, S
, Tame, M S
in
Cryptography
/ Luminous intensity
/ nanophotonics
/ Nanowires
/ Plasmonics
/ quantum device
/ Quantum mechanics
/ quantum random number generation
/ quantum randomness
/ Random numbers
/ Waveguides
2024
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Quantum random number generation using an on-chip nanowire plasmonic waveguide
Journal Article
Quantum random number generation using an on-chip nanowire plasmonic waveguide
2024
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Overview
Quantum random number generators employ the inherent randomness of quantum mechanics to generate truly unpredictable random numbers, which are essential in cryptographic applications. While a great variety of quantum random number generators have been realized using photonics, few exploit the high-field confinement offered by plasmonics, which enables device footprints an order of magnitude smaller in size. Here we integrate an on-chip nanowire plasmonic waveguide into an optical time-of-arrival based quantum random number generation setup. Despite loss, we achieve a random number generation rate of 14.4 Mbits s − 1 using low light intensity, with the generated bits passing industry standard tests without post-processing. By increasing the light intensity, we were then able to increase the generation rate to 41.4 Mbits s − 1 , with the resulting bits only requiring a shuffle to pass all tests. This is an order of magnitude increase in the generation rate and decrease in the device size compared to previous work. Our experiment demonstrates the successful integration of an on-chip nanoscale plasmonic component into a quantum random number generation setup. This may lead to new opportunities in compact and scalable quantum random number generation.
Publisher
IOP Publishing
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