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22 results on '"Christensen, Bradley G."'

1. An advanced active quenching circuit for ultra-fast quantum cryptography

Author

Stipčević, Mario, Christensen, Bradley G., Kwiat, Paul G., and Gauthier, Daniel J.

Subjects
Quantum Physics, Computer Science - Cryptography and Security, Physics - Instrumentation and Detectors
Abstract

Commercial photon-counting modules based on actively quenched solid-state avalanche photodiode sensors are used in a wide variety of applications. Manufacturers characterize their detectors by specifying a small set of parameters, such as detection efficiency, dead time, dark counts rate, afterpulsing probability and single-photon arrival-time resolution (jitter). However, they usually do not specify the range of conditions over which these parameters are constant or present a sufficient description of the characterization process. In this work, we perform a few novel tests on two commercial detectors and identify an additional set of imperfections that must be specified to sufficiently characterize their behavior. These include rate-dependence of the dead time and jitter, detection delay shift, and "twilighting." We find that these additional non-ideal behaviors can lead to unexpected effects or strong deterioration of the performance of a system using these devices. We explain their origin by an in-depth analysis of the active quenching process. To mitigate the effects of these imperfections, a custom-built detection system is designed using a novel active quenching circuit. Its performance is compared against two commercial detectors in a fast quantum key distribution system with hyper-entangled photons and a random number generator., Comment: 15 pages, 14 figures

Published
2017
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2. A strong loophole-free test of local realism

Author

Shalm, Lynden K., Meyer-Scott, Evan, Christensen, Bradley G., Bierhorst, Peter, Wayne, Michael A., Stevens, Martin J., Gerrits, Thomas, Glancy, Scott, Hamel, Deny R., Allman, Michael S., Coakley, Kevin J., Dyer, Shellee D., Hodge, Carson, Lita, Adriana E., Verma, Varun B., Lambrocco, Camilla, Tortorici, Edward, Migdall, Alan L., Zhang, Yanbao, Kumor, Daniel R., Farr, William H., Marsili, Francesco, Shaw, Matthew D., Stern, Jeffrey A., Abellán, Carlos, Amaya, Waldimar, Pruneri, Valerio, Jennewein, Thomas, Mitchell, Morgan W., Kwiat, Paul G., Bienfang, Joshua C., Mirin, Richard P., Knill, Emanuel, and Nam, Sae Woo

Subjects
Quantum Physics
Abstract

We present a loophole-free violation of local realism using entangled photon pairs. We ensure that all relevant events in our Bell test are spacelike separated by placing the parties far enough apart and by using fast random number generators and high-speed polarization measurements. A high-quality polarization-entangled source of photons, combined with high-efficiency, low-noise, single-photon detectors, allows us to make measurements without requiring any fair-sampling assumptions. Using a hypothesis test, we compute p-values as small as $5.9\times 10^{-9}$ for our Bell violation while maintaining the spacelike separation of our events. We estimate the degree to which a local realistic system could predict our measurement choices. Accounting for this predictability, our smallest adjusted p-value is $2.3 \times 10^{-7}$. We therefore reject the hypothesis that local realism governs our experiment., Comment: Supplemental material available as an ancillary file

Published
2015
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3. A Time-Multiplexed Heralded Single-Photon Source

Author

Kaneda, Fumihiro, Christensen, Bradley G., Wong, Jia Jun, McCusker, Kevin T., Park, Hee Su, and Kwiat, Paul G.

Subjects
Quantum Physics
Abstract

Photons have proven to be excellent carriers of quantum information, and play essential roles in numerous quantum information processing (QIP) applications. In particular, heralded single- photon sources via spontaneous parametric-down conversion (SPDC) have been a key technology for demonstrating small-scale QIP, yet their low generation efficiency is a critical limitation for further scaling up optical QIP technology. In order to efficiently overcome the probabilistic nature of SPDC, here we demonstrate time multiplexing for up to 30 time slots of a periodically pumped heralded single-photon source, using a switchable low-loss optical storage cavity. We observe a maximum single-photon probability of 38.6% in periodic output time windows, corresponding to 6 times enhancement over a non-multiplexed source, but with no increase in the contribution of unwanted multi-photon events. Combining this time-multiplexing technique with a heralded source producing pure single-photon states should enable larger scale optical QIP systems than ever realized.

Published
2015
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4. Exploring the limits of quantum nonlocality with entangled photons

Author

Christensen, Bradley G., Liang, Yeong-Cherng, Brunner, Nicolas, Gisin, Nicolas, and Kwiat, Paul G.

Subjects
Quantum Physics
Abstract

Quantum nonlocality is arguably among the most counter-intuitive phenomena predicted by quantum theory. In recent years, the development of an abstract theory of nonlocality has brought a much deeper understanding of the subject. In parallel, experimental progress allowed for the demonstration of quantum nonlocality in a wide range of physical systems, and brings us close to a final loophole-free Bell test. Here we combine these theoretical and experimental developments in order to explore the limits of quantum nonlocality. This approach represents a thorough test of quantum theory, and could provide evidence of new physics beyond the quantum model. Using a versatile and high-fidelity source of pairs of polarization entangled photons, we explore the boundary of quantum correlations, present the most nonlocal correlations ever reported, demonstrate the phenomenon of more nonlocality with less entanglement, and show that non-planar (and hence complex) qubit measurements can be necessary to reproduce the strong qubit correlations that we observed. Our results are in remarkable agreement with quantum predictions., Comment: 6 pages, 5 pages of supplementary information, 5 figures. arXiv admin note: text overlap with arXiv:1405.4502

Published
2015
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5. Nonlocality and Quantum Cakes, Revisited

Author

Christensen, Bradley G., Kwiat, Paul G., Elitzur, Avshalom C., Series editor, Mersini-Houghton, Laura, Series editor, Padmanabhan, T., Series editor, Schlosshauer, Maximilian, Series editor, Silverman, Mark P., Series editor, Tuszynski, Jack A., Series editor, Vaas, Rüdiger, Series editor, Bertlmann, Reinhold, editor, and Zeilinger, Anton, editor

Published
2017
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8. A strong loophole-free test of local realism

Author

Shalm, Lynden K., primary, Meyer-Scott, Evan, additional, Christensen, Bradley G., additional, Bierhorst, Peter, additional, Wayne, Michael A., additional, Stevens, Martin J., additional, Gerrits, Thomas, additional, Glancy, Scott, additional, Hamel, Deny R., additional, Allman, Michael S., additional, Coakley, Kevin J., additional, Dyer, Shellee D., additional, Hodge, Carson, additional, Lita, Adriana E., additional, Verma, Varun B., additional, Lambrocco, Camilla, additional, Tortorici, Edward, additional, Migdall, Alan L., additional, Zhang, Yanbao, additional, Kumor, Daniel R., additional, Farr, William H., additional, Marsili, Francesco, additional, Shaw, Matthew D., additional, Stern, Jeffrey A., additional, Abellán, Carlos, additional, Amaya, Waldimar, additional, Pruneri, Valerio, additional, Jennewein, Thomas, additional, Mitchell, Morgan W., additional, Kwiat, Paul G., additional, Bienfang, Joshua C., additional, Mirin, Richard P., additional, Knill, Emanuel, additional, and Nam, Sae Woo, additional

Published
2016
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10. Strong Loophole-Free Test of Local Realism

Author

Shalm, Lynden K., primary, Meyer-Scott, Evan, additional, Christensen, Bradley G., additional, Bierhorst, Peter, additional, Wayne, Michael A., additional, Stevens, Martin J., additional, Gerrits, Thomas, additional, Glancy, Scott, additional, Hamel, Deny R., additional, Allman, Michael S., additional, Coakley, Kevin J., additional, Dyer, Shellee D., additional, Hodge, Carson, additional, Lita, Adriana E., additional, Verma, Varun B., additional, Lambrocco, Camilla, additional, Tortorici, Edward, additional, Migdall, Alan L., additional, Zhang, Yanbao, additional, Kumor, Daniel R., additional, Farr, William H., additional, Marsili, Francesco, additional, Shaw, Matthew D., additional, Stern, Jeffrey A., additional, Abellán, Carlos, additional, Amaya, Waldimar, additional, Pruneri, Valerio, additional, Jennewein, Thomas, additional, Mitchell, Morgan W., additional, Kwiat, Paul G., additional, Bienfang, Joshua C., additional, Mirin, Richard P., additional, Knill, Emanuel, additional, and Nam, Sae Woo, additional

Published
2015
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13. Higher-Dimensional Quantum Cryptography

Author

Christensen, Bradley G., primary, McCusker, Kevin T., additional, Gauthier, Daniel J., additional, Kumor, Daniel R., additional, Chandar, Venkat, additional, and Kwiat, Paul G., additional

Published
2014
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19. A strong loophole-free test of local realism.

Author

Shalm, Lynden K., Meyer-Scott, Evan, Christensen, Bradley G., Bierhorst, Peter, Wayne, Michael A., Stevens, Martin J., Gerrits, Thomas, Glancy, Scott, Hamel, Deny R., Allman, Michael S., Coakley, Kevin J., Dyer, Shellee D., Hodge, Carson, Lita, Adriana E., Verma, Varun B., Lambrocco, Camilla, Tortorici, Edward, Migdall, Alan L., Zhang, Yanbao, and Kumor, Daniel R.

Published
2016

22. High-speed quantum key distribution using hyper-entangled photons.

Author

Christensen, Bradley G., McCusker, Kevin T., Gauthier, Daniel J., and Kwiat, Paul G.

Abstract

We discuss a quantum cryptography system using the timing and polarization degrees of freedom to produce a high bit rate for both technologically limited eavesdroppers and for any potential eavesdroppers. [ABSTRACT FROM PUBLISHER]

Published
2012

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