Search Results - "Comandar, L C"

Quantum key distribution without detector vulnerabilities using optically seeded lasers by Comandar, L. C., Lucamarini, M., Fröhlich, B., Dynes, J. F., Sharpe, A. W., Tam, S. W.-B., Yuan, Z. L., Penty, R. V., Shields, A. J.

“…Quantum cryptography immune from detector attacks is realized by the development of a source of indistinguishable laser pulses based on optically seeded…”
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Experimental measurement-device-independent quantum digital signatures by Roberts, G. L., Lucamarini, M., Yuan, Z. L., Dynes, J. F., Comandar, L. C., Sharpe, A. W., Shields, A. J., Curty, M., Puthoor, I. V., Andersson, E.

“…The development of quantum networks will be paramount towards practical and secure telecommunications. These networks will need to sign and distribute…”
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Near perfect mode overlap between independently seeded, gain-switched lasers by Comandar, L C, Lucamarini, M, Fröhlich, B, Dynes, J F, Yuan, Z L, Shields, A J

“…We drastically improve the mode overlap between independently seeded, gain-switched laser diodes operating at gigahertz repetition rates by implementing a…”
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Room temperature single-photon detectors for high bit rate quantum key distribution by Comandar, L. C., Fröhlich, B., Lucamarini, M., Patel, K. A., Sharpe, A. W., Dynes, J. F., Yuan, Z. L., Penty, R. V., Shields, A. J.

“…We report room temperature operation of telecom wavelength single-photon detectors for high bit rate quantum key distribution (QKD). Room temperature operation…”
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Near perfect mode overlap between independently seeded, gain-switched lasers by Comandar, L. C, Lucamarini, M, Fr öhlich, B, Dynes, J. F, Yuan, Z. L, Shields, A. J

“…Optics Express 24, 17849-17859 (2016) We drastically improve the mode overlap between independently seeded, gain-switched laser diodes operating at gigahertz…”
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Experimental measurement-device-independent quantum digital signatures by Roberts, G. L, Lucamarini, M, Yuan, Z. L, Dynes, J. F, Comandar, L. C, Sharpe, A. W, Shields, A. J, Curty, M, Puthoor, I. V, Andersson, E

“…Nature Communications 8, 1098 (2017) We propose and experimentally implement a novel reconfigurable quantum key distribution (QKD) scheme, where the users can…”
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Quantum cryptography without detector vulnerabilities using optically-seeded lasers by Comandar, L. C, Lucamarini, M, Fröhlich, B, Dynes, J. F, Sharpe, A. W, Tam, S, Yuan, Z. L, Penty, R. V, Shields, A. J

“…Nature Photonics 10, 312-315 (2016) Security in quantum cryptography is continuously challenged by inventive attacks targeting the real components of a…”
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Room temperature single-photon detectors for high bit rate quantum key distribution by Comandar, L. C, Fröhlich, B, Lucamarini, M, Patel, K. A, Sharpe, A. W, Dynes, J. F, Yuan, Z. L, Penty, R. V, Shields, A. J

“…Appl. Phys. Lett. 104 , 021101 (2014) We report room temperature operation of telecom wavelength single-photon detectors for high bit rate quantum key…”
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