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221 results on '"Bourgoin, Jean-Philippe"'

1. Repeated radiation damage and thermal annealing of avalanche photodiodes

Author

DSouza, Ian, Bourgoin, Jean-Philippe, Higgins, Brendon L., Lim, Jin Gyu, Tannous, Ramy, Agne, Sascha, Moffat, Brian, Makarov, Vadim, and Jennewein, Thomas

Subjects
Physics - Instrumentation and Detectors, Astrophysics - Instrumentation and Methods for Astrophysics, Quantum Physics
Abstract

Avalanche photodiodes (APDs) are well-suited for single-photon detection on quantum communication satellites as they are a mature technology with high detection efficiency without requiring cryogenic cooling. They are, however, prone to significantly increased thermal noise caused by in-orbit radiation damage. Previous work demonstrated that a one-time application of thermal annealing reduces radiation-damage-induced APD thermal noise. Here we examine the effect of cyclical proton irradiation and thermal annealing. We use an accelerated testing environment which emulates a realistic two-year operating profile of a satellite in low-Earth-orbit. We show that repeated thermal annealing is effective at maintaining thermal noise of silicon APDs within a range suitable for quantum key distribution throughout the nominal mission life, and beyond. We examine two strategies -- annealing at a fixed period of time, and annealing only when the thermal noise exceeds a pre-defined limit. We find both strategies exhibit similar thermal noise at end-of-life, with a slight overall advantage to annealing conditionally. We also observe that afterpulsing probability of the detector increases with cumulative proton irradiation. This knowledge helps guide design and tasking decisions for future space-borne quantum communication applications., Comment: 7 pages, 8 figures

Published
2020
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2. Hong-Ou-Mandel interference of unconventional temporal laser modes

Author

Agne, Sascha, Jin, Jeongwan, Kuntz, Katanya B., Miatto, Filippo M., Bourgoin, Jean-Philippe, and Jennewein, Thomas

Subjects
Quantum Physics, Physics - Optics
Abstract

The Hong-Ou-Mandel (HOM) effect ranks among the most notable quantum interference phenomena, and is central to many applications in quantum technologies. The fundamental effect appears when two independent and indistinguishable photons are superimposed on a beam splitter, which achieves a complete suppression of coincidences between the two output ports. Much less studied, however, is when the fields share coherence (continuous-wave lasers) or mode envelope properties (pulsed lasers). In this case, we expect the existence of two distinct and concurrent HOM interference regimes: the traditional HOM dip on the coherence length time scale, and a structured HOM interference pattern on the pulse length scale. We develop a theoretical framework that describes HOM interference for laser fields having arbitrary temporal waveforms and only partial overlap in time. We observe structured HOM interference from a continuous-wave laser via fast polarization modulation and time-resolved single photon detection fast enough to resolve these structured HOM dips., Comment: 11 pages, 4 figures

Published
2020
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3. Adaptive optics benefit for quantum key distribution uplink from ground to a satellite

Author

Pugh, Christopher J., Lavigne, Jean-Francois, Bourgoin, Jean-Philippe, Higgins, Brendon L., and Jennewein, Thomas

Subjects
Physics - Optics, Quantum Physics
Abstract

For quantum communications, the use of Earth-orbiting satellites to extend distances has gained significant attention in recent years, exemplified in particular by the launch of the Micius satellite in 2016. The performance of applied protocols such as quantum key distribution (QKD) depends significantly upon the transmission efficiency through the turbulent atmosphere, which is especially challenging for ground-to-satellite uplink scenarios. Adaptive optics (AO) techniques have been used in astronomical, communication, and other applications to reduce the detrimental effects of turbulence for many years, but their applicability to quantum protocols, and their requirements specifically in the uplink scenario, are not well established. Here, we model the effect of the atmosphere on link efficiency between an Earth station and a satellite using an optical uplink, and how AO can help recover from loss due to turbulence. Examining both low-Earth-orbit and geostationary uplink scenarios, we find that a modest link transmissivity improvement of about 3dB can be obtained in the case of a co-aligned downward beacon, while the link can be dramatically improved, up to 7dB, using an offset beacon, such as a laser guide star. AO coupled with a laser guide star would thus deliver a significant increase in the secret key generation rate of the QKD ground-to-space uplink system, especially as reductions of channel loss have favourably nonlinear key-rate response within this high-loss regime., Comment: 9 pages, 5 figures, clarifying updates and simulation updates

Published
2019
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4. Genuine time-bin-encoded quantum key distribution over a turbulent depolarizing free-space channel

Author

Jin, Jeongwan, Bourgoin, Jean-Philippe, Tannous, Ramy, Agne, Sascha, Pugh, Christopher J., Kuntz, Katanya B., Higgins, Brendon L., and Jennewein, Thomas

Subjects
Quantum Physics
Abstract

Despite its widespread use in fiber optics, encoding quantum information in photonic time-bin states is usually considered impractical for free-space quantum communication as turbulence-induced spatial distortion impedes the analysis of time-bin states at the receiver. Here, we demonstrate quantum key distribution using time-bin photonic states distorted by turbulence and depolarization during free-space transmission. Utilizing a novel analyzer apparatus, we observe stable quantum bit error ratios of 5.32 %, suitable for generating secure keys, despite significant wavefront distortions and polarization fluctuations across a 1.2 km channel. This shows the viability of time-bin quantum communication over long-distance free-space channels, which will simplify direct fiber/free-space interfaces and enable new approaches for practical free-space quantum communication over multi-mode, turbulent, or depolarizing channels.

Published
2019
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5. Eavesdropper's ability to attack a free-space quantum-key-distribution receiver in atmospheric turbulence

Author

Chaiwongkhot, Poompong, Kuntz, Katanya B., Zhang, Yanbao, Huang, Anqi, Bourgoin, Jean-Philippe, Sajeed, Shihan, Lütkenhaus, Norbert, Jennewein, Thomas, and Makarov, Vadim

Subjects
Quantum Physics
Abstract

The ability of an eavesdropper (Eve) to perform an intercept-resend attack on a free-space quantum key distribution (QKD) receiver by precisely controlling the incidence angle of an attack laser has been previously demonstrated. However, such an attack could be ineffective in the presence of atmospheric turbulence due to beam wander and spatial mode aberrations induced by the air's varying index of refraction. We experimentally investigate the impact turbulence has on Eve's attack on a free-space polarization-encoding QKD receiver by emulating atmospheric turbulence with a spatial light modulator. Our results identify how well Eve would need to compensate for turbulence to perform a successful attack by either reducing her distance to the receiver, or using beam wavefront correction via adaptive optics. Furthermore, we use an entanglement-breaking scheme to find a theoretical limit on the turbulence strength that hinders Eve's attack., Comment: 10 pages, 5 figures

Published
2019
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6. Numeric estimation of resource requirements for a practical polarization-frame alignment scheme for QKD

Author

Higgins, Brendon L., Bourgoin, Jean-Philippe, and Jennewein, Thomas

Subjects
Quantum Physics, Physics - Applied Physics
Abstract

Due to physical orientations and birefringence effects, practical quantum information protocols utilizing optical polarization need to handle misalignment between preparation and measurement reference frames. For any such capable system, an important question is how many resources -- e.g., measured single photons -- are needed to reliably achieve alignment precision sufficient for the desired quantum protocol. Here we study the performance of a polarization-frame alignment scheme used in prior laboratory and field quantum key distribution (QKD) experiments by performing Monte Carlo numerical simulations. The scheme utilizes, to the extent possible, the same single-photon-level signals and measurements as for the QKD protocol being supported. Even with detector noise and imperfect sources, our analysis shows that only a small fraction of resources from the overall signal -- a few hundred photon detections, in total -- are required for good performance, restoring the state to better than 99% of its original quality., Comment: 8 pages, 4 figures; clarifying updates and cuts to the text

Published
2018
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7. Eavesdropping and countermeasures for backflash side channel in quantum cryptography

Author

Pinheiro, Paulo Vinicius Pereira, Chaiwongkhot, Poompong, Sajeed, Shihan, Horn, Rolf T., Bourgoin, Jean-Philippe, Jennewein, Thomas, Lütkenhaus, Norbert, and Makarov, Vadim

Subjects
Quantum Physics
Abstract

Quantum key distribution (QKD) promises information theoretic secure key as long as the device performs as assumed in the theoretical model. One of the assumptions is an absence of information leakage about individual photon detection outcomes of the receiver unit. Here we investigate the information leakage from a QKD receiver due to photon emission caused by detection events in single-photon detectors (backflash). We test commercial silicon avalanche photodiodes and a photomultiplier tube, and find that the former emit backflashes. We study the spectral, timing and polarization characteristics of these backflash photons. We experimentally demonstrate on a free-space QKD receiver that an eavesdropper can distinguish which detector has clicked inside it, and thus acquire secret information. A set of countermeasures both in theory and on the physical devices are discussed., Comment: 9 pages, 7 figures

Published
2018
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8. Mitigating radiation damage of single photon detectors for space applications

Author

Anisimova, Elena, Higgins, Brendon L., Bourgoin, Jean-Philippe, Cranmer, Miles, Choi, Eric, Hudson, Danya, Piche, Louis P., Scott, Alan, Makarov, Vadim, and Jennewein, Thomas

Subjects
Physics - Instrumentation and Detectors, Astrophysics - Instrumentation and Methods for Astrophysics, Quantum Physics
Abstract

Single-photon detectors in space must retain useful performance characteristics despite being bombarded with sub-atomic particles. Mitigating the effects of this space radiation is vital to enabling new space applications which require high-fidelity single-photon detection. To this end, we conducted proton radiation tests of various models of avalanche photodiodes (APDs) and one model of photomultiplier tube potentially suitable for satellite-based quantum communications. The samples were irradiated with 106 MeV protons at doses approximately equivalent to lifetimes of 0.6 , 6, 12 and 24 months in a low-Earth polar orbit. Although most detection properties were preserved, including efficiency, timing jitter and afterpulsing probability, all APD samples demonstrated significant increases in dark count rate (DCR) due to radiation-induced damage, many orders of magnitude higher than the 200 counts per second (cps) required for ground-to-satellite quantum communications. We then successfully demonstrated the mitigation of this DCR degradation through the use of deep cooling, to as low as -86 degrees C. This achieved DCR below the required 200 cps over the 24 months orbit duration. DCR was further reduced by thermal annealing at temperatures of +50 to +100 degrees C., Comment: The license has been corrected. Note that the license of v2 was incorrect and not valid. No other changes since v2

Published
2017
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9. Laser annealing heals radiation damage in avalanche photodiodes

Author

Lim, Jin Gyu, Anisimova, Elena, Higgins, Brendon L., Bourgoin, Jean-Philippe, Jennewein, Thomas, and Makarov, Vadim

Subjects
Quantum Physics, Physics - Instrumentation and Detectors
Abstract

Avalanche photodiodes (APDs) are a practical option for space-based quantum communications requiring single-photon detection. However, radiation damage to APDs significantly increases their dark count rates and reduces their useful lifetimes in orbit. We show that high-power laser annealing of irradiated APDs of three different models (Excelitas C30902SH, Excelitas SLiK, and Laser Components SAP500S2) heals the radiation damage and substantially restores low dark count rates. Of nine samples, the maximum dark count rate reduction factor varies between 5.3 and 758 when operating at minus 80 degrees Celsius. The illumination power to reach these reduction factors ranges from 0.8 to 1.6 W. Other photon detection characteristics, such as photon detection efficiency, timing jitter, and afterpulsing probability, remain mostly unaffected. These results herald a promising method to extend the lifetime of a quantum satellite equipped with APDs., Comment: 10 pages, 9 figures, 2 tables

Published
2017
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10. Airborne demonstration of a quantum key distribution receiver payload

Author

Pugh, Christopher J., Kaiser, Sarah, Bourgoin, Jean-Philippe, Jin, Jeongwan, Sultana, Nigar, Agne, Sascha, Anisimova, Elena, Makarov, Vadim, Choi, Eric, Higgins, Brendon L., and Jennewein, Thomas

Subjects
Quantum Physics
Abstract

Satellite-based quantum terminals are a feasible way to extend the reach of quantum communication protocols such as quantum key distribution (QKD) to the global scale. To that end, prior demonstrations have shown QKD transmissions from airborne platforms to receivers on ground, but none have shown QKD transmissions from ground to a moving aircraft, the latter scenario having simplicity and flexibility advantages for a hypothetical satellite. Here, we demonstrate QKD from a ground transmitter to a receiver prototype mounted on an airplane in flight. We have specifically designed our receiver prototype to consist of many components that are compatible with the environment and resource constraints of a satellite. Coupled with our relocatable ground station system, optical links with distances of 3-10 km were maintained and quantum signals transmitted while traversing angular rates similar to those observed of low-Earth-orbit satellites. For some passes of the aircraft over the ground station, links were established within 10 s of position data transmission, and with link times of a few minutes and received quantum bit error rates typically 3-5%, we generated secure keys up to 868 kb in length. By successfully generating secure keys over several different pass configurations, we demonstrate the viability of technology that constitutes a quantum receiver satellite payload and provide a blueprint for future satellite missions to build upon., Comment: 16 pages, 5 figures, Updated pointing figures, Added references

Published
2016
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11. Experimental quantum key distribution with simulated ground-to-satellite photon losses and processing limitations

Author

Bourgoin, Jean-Philippe, Gigov, Nikolay, Higgins, Brendon L., Yan, Zhizhong, Meyer-Scott, Evan, Khandani, Amir K., Lütkenhaus, Norbert, and Jennewein, Thomas

Subjects
Quantum Physics
Abstract

Quantum key distribution (QKD) has the potential to improve communications security by offering cryptographic keys whose security relies on the fundamental properties of quantum physics. The use of a trusted quantum receiver on an orbiting satellite is the most practical near-term solution to the challenge of achieving long-distance (global-scale) QKD, currently limited to a few hundred kilometers on the ground. This scenario presents unique challenges, such as high photon losses and restricted classical data transmission and processing power due to the limitations of a typical satellite platform. Here we demonstrate the feasibility of such a system by implementing a QKD protocol, with optical transmission and full post-processing, in the high-loss regime using minimized computing hardware at the receiver. Employing weak coherent pulses with decoy states, we demonstrate the production of secure key bits at up to 56.5 dB of photon loss. We further illustrate the feasibility of a satellite uplink by generating secure key while experimentally emulating the varying channel losses predicted for realistic low-Earth-orbit satellite passes at 600 km altitude. With a 76 MHz source and including finite-size analysis, we extract 3374 bits of secure key from the best pass. We also illustrate the potential benefit of combining multiple passes together: while one suboptimal "upper-quartile" pass produces no finite-sized key with our source, the combination of three such passes allows us to extract 165 bits of secure key. Alternatively, we find that by increasing the signal rate to 300 MHz it would be possible to extract 21570 bits of secure finite-sized key in just a single upper-quartile pass., Comment: 12 pages, 7 figures, 2 tables

Published
2015
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12. Creation of backdoors in quantum communications via laser damage

Author

Makarov, Vadim, Bourgoin, Jean-Philippe, Chaiwongkhot, Poompong, Gagné, Mathieu, Jennewein, Thomas, Kaiser, Sarah, Kashyap, Raman, Legré, Matthieu, Minshull, Carter, and Sajeed, Shihan

Subjects
Quantum Physics
Abstract

Practical quantum communication (QC) protocols are assumed to be secure provided implemented devices are properly characterized and all known side channels are closed. We show that this is not always true. We demonstrate a laser-damage attack capable of modifying device behaviour on-demand. We test it on two practical QC systems for key distribution and coin-tossing, and show that newly created deviations lead to side channels. This reveals that laser damage is a potential security risk to existing QC systems, and necessitates their testing to guarantee security., Comment: Changed the title to match the journal version. 9 pages, 5 figures

Published
2015
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13. Demonstration of analyzers for multimode photonic time-bin qubits

Author

Jin, Jeongwan, Agne, Sascha, Bourgoin, Jean-Philippe, Zhang, Yanbao, Lütkenhaus, Norbert, and Jennewein, Thomas

Subjects
Quantum Physics
Abstract

We demonstrate two approaches for unbalanced interferometers as time-bin qubit analyzers for quantum communication, robust against mode distortions and polarization effects as expected from free-space quantum communication systems including wavefront deformations, path fluctuations, pointing errors, and optical elements. Despite strong spatial and temporal distortions of the optical mode of a time-bin qubit, entangled with a separate polarization qubit, we verify entanglement using the Negative Partial Transpose, with the measured visibility of up to 0.85$\pm$0.01. The robustness of the analyzers is further demonstrated for various angles of incidence up to 0.2$^{\circ}$. The output of the interferometers is coupled into multimode fiber yielding a high system throughput of 0.74. Therefore, these analyzers are suitable and efficient for quantum communication over multimode optical channels.

Published
2015

14. Free-space quantum key distribution to a moving receiver

Author

Bourgoin, Jean-Philippe, Higgins, Brendon L., Gigov, Nick, Holloway, Catherine, Pugh, Christopher J., Kaiser, Sarah, Cranmer, Miles, and Jennewein, Thomas

Subjects
Quantum Physics
Abstract

Technological realities limit terrestrial quantum key distribution (QKD) to single-link distances of a few hundred kilometers. One promising avenue for global-scale quantum communication networks is to use low-Earth-orbit satellites. Here we report the first demonstration of QKD from a stationary transmitter to a receiver platform traveling at an angular speed equivalent to a 600 km altitude satellite, located on a moving truck. We overcome the challenges of actively correcting beam pointing, photon polarization and time-of-flight. Our system generates an asymptotic secure key at 40 bits/s., Comment: 7 pages, 7 figures, 3 tables

Published
2015
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15. Security loophole in free-space quantum key distribution due to spatial-mode detector-efficiency mismatch

Author

Sajeed, Shihan, Chaiwongkhot, Poompong, Bourgoin, Jean-Philippe, Jennewein, Thomas, Lutkenhaus, Norbert, and Makarov, Vadim

Subjects
Quantum Physics
Abstract

In free-space quantum key distribution (QKD), the sensitivity of the receiver's detector channels may depend differently on the spatial mode of incoming photons. Consequently, an attacker can control the spatial mode to break security. We experimentally investigate a standard polarization QKD receiver, and identify sources of efficiency mismatch in its optical scheme. We model a practical intercept-and-resend attack and show that it would break security in most situations. We show experimentally that adding an appropriately chosen spatial filter at the receiver's entrance is an effective countermeasure., Comment: 7 pages, 4 figures

Published
2015
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16. Attacks exploiting deviation of mean photon number in quantum key distribution and coin tossing

Author

Sajeed, Shihan, Radchenko, Igor, Kaiser, Sarah, Bourgoin, Jean-Philippe, Pappa, Anna, Monat, Laurent, Legre, Matthieu, and Makarov, Vadim

Subjects
Quantum Physics, Computer Science - Cryptography and Security
Abstract

The security of quantum communication using a weak coherent source requires an accurate knowledge of the source's mean photon number. Finite calibration precision or an active manipulation by an attacker may cause the actual emitted photon number to deviate from the known value. We model effects of this deviation on the security of three quantum communication protocols: the Bennett-Brassard 1984 (BB84) quantum key distribution (QKD) protocol without decoy states, Scarani-Acin-Ribordy-Gisin 2004 (SARG04) QKD protocol, and a coin-tossing protocol. For QKD, we model both a strong attack using technology possible in principle, and a realistic attack bounded by today's technology. To maintain the mean photon number in two-way systems, such as plug-and-play and relativistic quantum cryptography schemes, bright pulse energy incoming from the communication channel must be monitored. Implementation of a monitoring detector has largely been ignored so far, except for ID Quantique's commercial QKD system Clavis2. We scrutinize this implementation for security problems, and show that designing a hack-proof pulse-energy-measuring detector is far from trivial. Indeed the first implementation has three serious flaws confirmed experimentally, each of which may be exploited in a cleverly constructed Trojan-horse attack. We discuss requirements for a loophole-free implementation of the monitoring detector., Comment: 15 pages, 13 figures, Improved Introduction and Conclusion, Published in Physical Review A, Accepted at QCrypt 2014, 4th international conference on quantum cryptography, September 1-5, 2014 in Paris, France http://2014.qcrypt.net/program/

Published
2014
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18. Generating polarization-entangled photon pairs using cross-spliced birefringent fibers

Author

Meyer-Scott, Evan, Roy, Vincent, Bourgoin, Jean-Philippe, Higgins, Brendon L., Shalm, Lynden K., and Jennewein, Thomas

Subjects
Quantum Physics, Physics - Optics
Abstract

We demonstrate a novel polarization-entangled photon-pair source based on standard birefringent polarization-maintaining optical fiber. The source consists of two stretches of fiber spliced together with perpendicular polarization axes, and has the potential to be fully fiber-based, with all bulk optics replaced with in-fiber equivalents. By modelling the temporal walk-off in the fibers, we implement compensation necessary for the photon creation processes in the two stretches of fiber to be indistinguishable. Our source subsequently produces a high quality entangled state having (92.2 \pm 0.2) % fidelity with a maximally entangled Bell state., Comment: 5 pages, 5 figures, updated to published version

Published
2012
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19. Novel High-Speed Polarization Source for Decoy-State BB84 Quantum Key Distribution over Free Space and Satellite Links

Author

Yan, Zhizhong, Meyer-Scott, Evan, Bourgoin, Jean-Philippe, Higgins, Brendon L., Gigov, Nikolay, MacDonald, Allison, Hübel, Hannes, and Jennewein, Thomas

Subjects
Quantum Physics, Physics - Optics
Abstract

To implement the BB84 decoy-state quantum key distribution (QKD) protocol over a lossy ground-satellite quantum uplink requires a source that has high repetition rate of short laser pulses, long term stability, and no phase correlations between pulses. We present a new type of telecom optical polarization and amplitude modulator, based on a balanced Mach-Zehnder interferometer configuration, coupled to a polarization-preserving sum-frequency generation (SFG) optical setup, generating 532 nm photons with modulated polarization and amplitude states. The weak coherent pulses produced by SFG meet the challenging requirements for long range QKD, featuring a high clock rate of 76 MHz, pico-second pulse width, phase randomization, and 98% polarization visibility for all states. Successful QKD has been demonstrated using this apparatus with full system stability up to 160 minutes and channel losses as high 57 dB [Phys. Rev. A, Vol. 84, p.062326]. We present the design and simulation of the hardware through the Mueller matrix and Stokes vector relations, together with an experimental implementation working in the telecom wavelength band. We show the utility of the complete system by performing high loss QKD simulations, and confirm that our modulator fulfills the expected performance., Comment: 21 pages, 8 figures and 2 tables

Published
2012
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20. Optimal pair generation rate for Entanglement-based QKD

Author

Holloway, Catherine, Doucette, John A., Erven, Christopher, Bourgoin, Jean-Philippe, and Jennewein, Thomas

Subjects
Quantum Physics
Abstract

In entanglement-based quantum key distribution (QKD), the generation and detection of multi-photon modes leads to a trade-off between entanglement visibility and two-fold coincidence events when maximizing the secure key rate (SKR). We produce a predictive model for the optimal two-fold coincidence probability per coincidence window given the channel efficiency and detector dark count rate of a given system. This model is experimentally validated and used in simulations for QKD with satellites as well as optical fibers.

Published
2012
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21. How to implement decoy-state quantum key distribution for a satellite uplink with 50 dB channel loss

Author

Meyer-Scott, Evan, Yan, Zhizhong, MacDonald, Allison, Bourgoin, Jean-Philippe, Hübel, Hannes, and Jennewein, Thomas

Subjects
Quantum Physics
Abstract

Quantum key distribution (QKD) takes advantage of fundamental properties of quantum physics to allow two distant parties to share a secret key; however, QKD is hampered by a distance limitation of a few hundred kilometers on earth. The most immediate solution for global coverage is to use a satellite, which can receive separate QKD transmissions from two or more ground stations and act as a trusted node to link these ground stations. In this article, we report a system capable of performing QKD in the high loss regime expected in an uplink to a satellite using weak coherent pulses and decoy states. Such a scenario profits from the simplicity of its receiver payload, but has so far considered to be infeasible due to very high transmission losses (40 - 50 dB). The high loss is overcome by implementing an innovative photon source and advanced timing analysis. Our system handles up to 57 dB photon loss in the infinite key limit, confirming the viability of the satellite uplink scenario. We emphasize that while this system was designed with a satellite uplink in mind, it could just as easily overcome high losses on any free space QKD link., Comment: 9 pages, 5 figures, updated to published version

Published
2011
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22. A versatile photon counting system with active afterpulse suppression for free-running negative-feedback avalanche diodes.

Author

Sultana, Nigar, Bourgoin, Jean-Philippe, Kuntz, Katanya B., and Jennewein, Thomas

Subjects
*AVALANCHE diodes, *PHOTON detectors, *PHOTON counting, *QUANTUM communication, *TELECOMMUNICATION, *DETECTORS, *LONG-distance running, *COINCIDENCE
Abstract

InGaAs/InP-based negative-feedback avalanche diodes (NFADs) have been demonstrated to be an excellent option for photon detection at telecom wavelengths in quantum communication applications, where photon arrival times are random. However, it is well-known that the operation of NFADs at low temperatures (193 K or below) is crucial to minimize the effects of afterpulsing and high dark count rates (DCRs). In this work, we present a new versatile readout electronics system with active afterpulse suppression that also offers flexible cooling options. Through the characterization of two NFAD detectors from Princeton Lightwave, Inc. and a thorough evaluation of our electronics' performance under various operating conditions, we demonstrate the effectiveness of this readout system in improving the performance of NFAD-based photon detectors. At the optimal bias for NFADs, our electronics were able to significantly reduce the afterpulsing probability by a factor of 200 for dead times ranging from 5 to 20 µs following each detection event. This helps to keep the total DCRs at around 100 counts per second or less for a 20 µs hold-off time. The versatility of our detection system makes NFADs a cost-effective alternative to more complex detectors, such as superconducting nanowire single-photon detectors, in the research of long-distance quantum communications and low-noise single photon detectors at telecommunication wavelengths. [ABSTRACT FROM AUTHOR]

Published
2024
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24. Functional Model of Carbon Nanotube Programmable Resistors for Hybrid Nano/CMOS Circuit Design

Author

Zhao, Weisheng, Agnus, Guillaume, Derycke, Vincent, Filoramo, Ariana, Gamrat, Christian, Bourgoin, Jean-Philippe, Akan, Ozgur, Series editor, Bellavista, Paolo, Series editor, Cao, Jiannong, Series editor, Dressler, Falko, Series editor, Ferrari, Domenico, Series editor, Gerla, Mario, Series editor, Kobayashi, Hisashi, Series editor, Palazzo, Sergio, Series editor, Sahni, Sartaj, Series editor, Shen, Xuemin (Sherman), Series editor, Stan, Mircea, Series editor, Xiaohua, Jia, Series editor, Zomaya, Albert, Series editor, Coulson, Geoffrey, Series editor, Schmid, Alexandre, editor, Goel, Sanjay, editor, Wang, Wei, editor, Beiu, Valeriu, editor, and Carrara, Sandro, editor

Published
2009
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25. Molecular Electronics

Author

Bourgoin, Jean-Philippe, Vuillaume, Dominique, Goffman, Marcello Fabian, Filoramo, Arianna, Dupas, Claire, editor, Houdy, Philippe, editor, and Lahmani, Marcel, editor

Published
2007
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28. Molecular Electronics: A Review of Metal-Molecule-Metal Junctions

Author

Bourgoin, Jean-Philippe, Beig, R., editor, Ehlers, J., editor, Frisch, U., editor, Hepp, K., editor, Hillebrandt, W., editor, Imboden, D., editor, Jaffe, R. L., editor, Kippenhahn, R., editor, Lipowsky, R., editor, v Löhneysen, H., editor, Ojima, I., editor, Weidenmüller, H. A., editor, Wess, J., editor, Zittartz, J., editor, Haug, Rolf, editor, and Schoeller, Herbert, editor

Published
2001
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30. Thermal measurement on subnanoliter sample volumes

Author

Bourgoin, Jean-Philippe, Allogho, Guy-Germain, and Hache, Alain

Subjects
Lasers -- Thermal properties, Optics -- Research, Optics -- Methods, Laser, Astronomy, Physics
Abstract

Using the high spatial resolution of focused laser beams, we probe the thermal properties of micrometer-sized single droplets and grains. Volumes as small as 0.5 nl are analyzed and possible improvements to picoliter are discussed. OCIS codes: 120.6810, 140.6810, 310.6860, 350.6830, 190.4870.

Published
2010

31. Single laser beam measurement of thermal diffusivity

Author

Bourgoin, Jean-Philippe, Doiron, Serge, Deveaux, Michel, and Hache, Alain

Subjects
Thermal diffusivity -- Measurement, Laser beams -- Properties, Laser beams -- Usage, Calibration -- Methods, Astronomy, Physics
Abstract

Thermal diffusion properties of interfaces are measured using self-induced surface thermal lensing with a single laser beam. The time evolution of the reflected beam reveals information on heat diffusion away from the interface. Unambiguous correlation between measured signal and thermal diffusivity is shown, theoretically and experimentally, from which calibration curves are obtained. Being simpler and less sensitive to vibrations and misalignments, the technique offers definite advantages over standard two-beam (pump-probe) methods. OCIS codes: 120.6810, 350.5340, 350.6830.

Published
2008

32. Computationally efficient physics-based compact CNTFET model for circuit design

Author

Fregonese, Sebastien, d'Honincthun, Hugues Cazin, Goguet, Johnny, Maneux, Cristell, Zimmer, Thomas, Bourgoin, Jean-Philippe, Dollfus, Philippe, and Galdin-Retailleau, Sylvie

Subjects
Voltage -- Evaluation, Field-effect transistors -- Design and construction, Metal oxide semiconductor field effect transistors -- Evaluation, Nanotubes -- Electric properties, Business, Electronics, Electronics and electrical industries
Abstract

A computationally efficient compact model is presented for the conventional carbon nanotube field-effect transistor (CNTFET) featuring a metal-oxide-semiconductor field-effect transistors (MOSFET)-like operation. Findings reveal the capability of the compact model in determining the CNTFET threshold voltage distribution.

Published
2008

35. Supramolecular Architecture in Langmuir-Blodgett Films

Author

Armand, Franck, primary, Bourgoin, Jean-Philippe, additional, Doublet, François, additional, Isz, Sandrine, additional, Martinez, Maria-Victoria, additional, Palacin, Serge, additional, Perez, Henri, additional, and Ruaudel-Teixier, Annie, additional

Published
1997
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41. Adaptive optics benefit for quantum key distribution uplink from ground to a satellite.

Author

Pugh, Christopher J., Lavigne, Jean-Francois, Bourgoin, Jean-Philippe, Higgins, Brendon L., and Jennewein, Thomas

Subjects
QUANTUM optics, QUANTUM communication, ARTIFICIAL satellite launching, ARTIFICIAL satellites, EARTH stations, FREE-space optical technology, ADAPTIVE optics
Abstract

For quantum communications, the use of Earth-orbiting satellites to extend distances has gained significant attention in recent years, exemplified in particular by the launch of the Micius satellite in 2016. The performance of applied protocols such as quantum key distribution (QKD) depends significantly on the transmission efficiency through the turbulent atmosphere, which is especially challenging for ground-to-satellite uplink scenarios. Adaptive optics (AO) techniques have been used in astronomical, communication, and other applications to reduce the detrimental effects of turbulence for many years, but their applicability to quantum protocols, and their requirements specifically in the uplink scenario, is not well established. Here, we model the effect of the atmosphere on link efficiency between an Earth station and a satellite using an optical uplink and how AO can help recover from loss due to turbulence. Examining both low Earth orbit and geostationary uplink scenarios, we find that a modest link transmissivity improvement of about 3 dB can be obtained in the case of a coaligned downward beacon, while the link can be dramatically improved, up to 7 dB, using an offset beacon, such as a laser guide star. AO coupled with a laser guide star would thus deliver a significant increase in the secret key generation rate of the QKD ground-to-space uplink system, especially as reductions of channel loss have a favourably nonlinear key-rate response within this high-loss regime. [ABSTRACT FROM AUTHOR]

Published
2020
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42. Numeric estimation of resource requirements for a practical polarization-frame alignment scheme for quantum key distribution (QKD).

Author

Higgins, Brendon L., Bourgoin, Jean-Philippe, and Jennewein, Thomas

Subjects
MONTE Carlo method, PHOTON detectors, PHOTONS, TECHNICAL specifications
Abstract

Owing to physical orientations and birefringence effects, practical quantum information protocols utilizing optical polarization need to handle misalignment between preparation and measurement reference frames. For any such capable system, an important question is how many resources – for example, measured single photons – are needed to reliably achieve alignment precision sufficient for the desired quantum protocol. Here, we study the performance of a polarization-frame alignment scheme used in prior laboratory and field quantum key distribution (QKD) experiments by performing Monte Carlo numerical simulations. The scheme utilizes, to the extent possible, the same single-photon-level signals and measurements as for the QKD protocol being supported. Even with detector noise and imperfect sources, our analysis shows that only a small fraction of resources from the overall signal – a few hundred photon detections, in total – are required for good performance, restoring the state to better than 99% of its original quality. [ABSTRACT FROM AUTHOR]

Published
2020
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45. Thermal conduction in thin films measured by optical surface thermal lensing.

Author

Bourgoin, Jean-Philippe, Allogho, Guy-Germain, and Haché, Alain

Subjects
*THIN films, *THERMAL conductivity, *ALUMINUM films, *GOLD films, *METAL coating, *SILVER, *METALLIC films
Abstract

Thermal conduction across thin films is measured optically by using the surface thermal lensing effect. Pump-probe laser measurements combined with numerical modeling are used to study thermal conduction in a variety of materials as thin as 10 nm. The method is relatively simple, robust, rapid, and offers an alternative to current techniques. Thermal conductivity in gold films is found to drop from 300 to 100 W/Km when the film thickness is reduced from 2000 to 100 nm. Results for silver, tin and aluminum films are also presented and compared with results from other studies. [ABSTRACT FROM AUTHOR]

Published
2010
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46. Facile decoration of functionalized single-wall carbon nanotubes with phthalocyanines via 'click chemistry'

Author

Campidelli, Stephane, Ballesteros, Beatriz, Filoramo, Arianna, Diaz, David Diaz, de la Torre, Gema, Torres, Tomas, Rahman, G.M. Aminur, Ehli, Christian, Kiessling, Daniel, Werner, Fabian, Sgobba, Vito, Guldi, Dirk M., Cioffl, Carla, Prato, Maurizio, and Bourgoin, Jean-Philippe

Subjects
Nanotubes -- Spectra, Nanotubes -- Chemical properties, Phthalocyanins -- Spectra, Phthalocyanins -- Chemical properties, Zinc compounds -- Spectra, Zinc compounds -- Chemical properties, Chemistry
Abstract

The functionalization of single-wall carbon nanotubes (SWNTs) with 4-(2-trimethylsilyl)ethynylaniline and the subsequent attachment of a zinc-phthalocyanine (ZnPc) derivative is described by using the reliable Huisgen 1,3-dipolar cycloaddition. The SWNT-ZnPc nanoconjugate is examined with a series of steady-state and time-resolved spectroscopy experiments and a photoinduced communication between the two photoactive components are identified.

Published
2008

48. Airborne demonstration of a quantum key distribution receiver payload

Author

Pugh, Christopher J, primary, Kaiser, Sarah, additional, Bourgoin, Jean-Philippe, additional, Jin, Jeongwan, additional, Sultana, Nigar, additional, Agne, Sascha, additional, Anisimova, Elena, additional, Makarov, Vadim, additional, Choi, Eric, additional, Higgins, Brendon L, additional, and Jennewein, Thomas, additional

Published
2017
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49. Airborne demonstration of a quantum key distribution receiver payload

Author

Pugh, Christopher J., primary, Kaiser, Sarah, additional, Bourgoin, Jean-Philippe, additional, Jin, Jeongwan, additional, Sultana, Nigar, additional, Agne, Sascha, additional, Anisimova, Elena, additional, Makarov, Vadim, additional, Choi, Eric, additional, Higgins, Brendon L., additional, and Jennewein, Thomas, additional

Published
2017
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