Our Publications

For select publications, see Professor Thomas Jennewein on these websites:

Below is a list of selected publications:

  • Lee, Youn Seok, Mengyu Xie, Ramy Tannous, and Thomas Jennewein. “Sagnac-type entangled photon source using only conventional polarization optics.” Quantum Science and Technology 6, no. 2 (2021): 025004.
  • Agne, Sascha, Jeongwan Jin, Katanya B. Kuntz, Filippo M. Miatto, Jean-Philippe Bourgoin, and Thomas Jennewein. “Hong-Ou-Mandel interference of unconventional temporal laser modes.” Optics Express 28, no. 14 (2020): 20943-20953.
  • Higgins, Brendon L., Jean-Philippe Bourgoin, and Thomas Jennewein. “Numeric estimation of resource requirements for a practical polarization-frame alignment scheme for quantum key distribution (QKD).” Advanced Optical Technologies 9, no. 5 (2020): 253-261.
  • Pugh, Christopher J., Jean-Francois Lavigne, Jean-Philippe Bourgoin, Brendon L. Higgins, and Thomas Jennewein. “Adaptive optics benefit for quantum key distribution uplink from ground to a satellite.” Advanced Optical Technologies 9, no. 5 (2020): 263-273.
  • Jin, Jeongwan, Jean-Philippe Bourgoin, Ramy Tannous, Sascha Agne, Christopher J. Pugh, Katanya B. Kuntz, Brendon L. Higgins, and Thomas Jennewein. “Genuine time-bin-encoded quantum key distribution over a turbulent depolarizing free-space channel.” Optics express 27, no. 26 (2019): 37214-37223.
  • Tannous, Ramy, Zhangdong Ye, Jeongwan Jin, Katanya B. Kuntz, Norbert Lütkenhaus, and Thomas Jennewein. “Demonstration of a 6 state-4 state reference frame independent channel for quantum key distribution.” Applied Physics Letters 115, no. 21 (2019): 211103.
  • Pinheiro, Paulo Vinicius Pereira, Poompong Chaiwongkhot, Shihan Sajeed, Rolf T. Horn, Jean-Philippe Bourgoin, Thomas Jennewein, Norbert Lütkenhaus, and Vadim Makarov. “Eavesdropping and countermeasures for backflash side channel in quantum cryptography.” Optics express 26, no. 16 (2018): 21020-21032.
  • Jin, Jeongwan, Sascha Agne, Jean-Philippe Bourgoin, Yanbao Zhang, Norbert Lütkenhaus, and Thomas Jennewein. “Demonstration of analyzers for multimode photonic time-bin qubits.” Physical Review A 97, no. 4 (2018): 043847.
  • Pugh, Christopher J., Sarah Kaiser, Jean-Philippe Bourgoin, Jeongwan Jin, Nigar Sultana, Sascha Agne, Elena Anisimova et al. “Airborne demonstration of a quantum key distribution receiver payload.” Quantum Science and Technology 2, no. 2 (2017): 024009.
  • Sascha Agne, Thomas Kauten, Jeongwan Jin, Evan Meyer-Scott, Jeff Z. Salvail, Deny R. Hamel, Kevin J. Resch, Gregor Weihs, and Thomas Jennewein (2017), ‘Observation of Genuine Three-Photon Interference’, Phys. Rev. Lett. 118, 153602
  • Hardie, Kayla, Sascha Agne, Katanya B. Kuntz, and Thomas Jennewein. “Inexpensive LED-based optical coating sensor.” IEEE Sensors Journal 17, no. 19 (2017): 6224-6231.
  • Evan Meyer-Scott, Daniel McCloskey, Klaudia Gołos, Jeff Z. Salvail, Kent A. G. Fisher, Deny R. Hamel, Adán Cabello, Kevin J. Resch, and Thomas Jennewein (2016), ‘Certifying the Presence of a Photonic Qubit by Splitting It in Two’, Phys. Rev. Lett. 116, 070501
  • Lynden K. Shalm et al. (2015), ‘Strong Loophole-Free Test of Local Realism’, Phys. Rev. Lett. 115, 250402
  • Meyer-Scott, E.; Dot, A.; Ahmad, R.; Li, L.; Rochette, M. & Jennewein, T. (2015), ‘Power-efficient production of photon pairs in a tapered chalcogenide microwire’, Applied Physics Letters 106(8), 081111.
  • Johnsen, K. D.; Kolenderski, P.; Scarcella, C.; Thibault, M.; Tosi, A. & Jennewein, T. (2014), ‘Time and spectrum-resolving multiphoton correlator for 300-900 nm’, JOURNAL OF APPLIED PHYSICS 116(14), 143101.
  • Dot, A.; Meyer-Scott, E.; Ahmad, R.; Rochette, M. & Jennewein, T. (2014), ‘Converting one photon into two via four-wave mixing in optical fibers’, PHYSICAL REVIEW A 90(4), 043808.
  • Hamel, D. R.; Shalm, L. K.; Huebel, H.; Miller, A. J.; Marsili, F.; Verma, V. B.; Mirin, R. P.; Nam, S.; Resch, K. J. & Jennewein, T. (2014), ‘Direct generation of three-photon polarization entanglement’, NATURE PHOTONICS 8(10), 801–807.
  • Ionicioiu, R.; Jennewein, T.; Mann, R. B. & Terno, D. R. (2014), ‘Is wave-particle objectivity compatible with determinism and locality?’, NATURE COMMUNICATIONS 5, 4997.
  • Bruschi, D. E.; Ralph, T. C.; Fuentes, I.; Jennewein, T. & Razavi, M. (2014), ‘Spacetime effects on satellite-based quantum communications’, PHYSICAL REVIEW D 90(4), 045041.
  • Celeri, L. C.; Gomes, R. M.; Ionicioiu, R.; Jennewein, T.; Mann, R. B. & Terno, D. R. (2014), ‘Quantum Control in Foundational Experiments’, FOUNDATIONS OF PHYSICS 44(5), 576–587.
  • Kolenderski, P.; Scarcella, C.; Johnsen, K. D.; Hamel, D. R.; Holloway, C.; Shalm, L. K.; Tisa, S.; Tosi, A.; Resch, K. J. & Jennewein, T. (2014), ‘Time-resolved double-slit interference pattern measurement with entangled photons’, SCIENTIFIC REPORTS 4, 4685.
  • Erven, C.; Meyer-Scott, E.; Fisher, K.; Lavoie, J.; Higgins, B. L.; Yan, Z.; Pugh, C. J.; Bourgoin, J. P.; Prevedel, R.; Shalm, L. K.; Richards, L.; Gigov, N.; Laflamme, R.; Weihs, G.; Jennewein, T. & Resch, K. J. (2014), ‘Experimental three-photon quantum nonlocality under strict locality conditions’, NATURE PHOTONICS 8(4), 292–296.
  • Lutz, T.; Kolenderski, P. & Jennewein, T. (2014), ‘Demonstration of spectral correlation control in a source of polarization-entangled photon pairs at telecom wavelength’, OPTICS LETTERS 39(6), 1481–1484.
  • Jennewein, T.; Grant, C.; Choi, E.; Pugh, C.; Holloway, C.; Bourgoin, J. P.; Hakima, H.; Higgins, B. & Zee, R. (2014), ‘The NanoQEY Mission: Ground to Space Quantum Key and Entanglement Distribution Using a Nanosatellite’, Emerging Technologies in Security and Defence II; and Quantum-Physics-Based Information Security III 9254, 925402.
  • Sinha, U.; Kolenderski, P.; Youning, L.; Zhao, T.; Volpini, M.; Cabello, A.; Laflamme, R. & Jennewein, T. (2014), ‘Playing a Quantum Game with a Qutrit’, ELEVENTH INTERNATIONAL CONFERENCE ON QUANTUM COMMUNICATION, MEASUREMENT AND COMPUTATION (QCMC) 1633, 38–40.
  • Jennewein, T.; Choi, E. & Higgins, B. (2014), ‘Progress towards implementation of a quantum communication receiver satellite’, ADVANCED PHOTON COUNTING TECHNIQUES VIII 9114, VII–VIII.
  • Jennewein, T. (2014), ‘Production cost saving by using coarse alternative fuels’, ZKG INTERNATIONAL 67(6), 50–54.
  • Jennewein, T.; Bourgoin, J. P.; Higgins, B.; Holloway, C.; Meyer-Scott, E.; Erven, C.; Heim, B.; Yan, Z.; Huebel, H.; Weihs, G.; Choi, E.; d’Souza, I.; Hudson, D. & Laflamme, R. (2014), ‘QEYSSAT: a mission proposal for a quantum receiver in space’, ADVANCES IN PHOTONICS OF QUANTUM COMPUTING, MEMORY, AND COMMUNICATION VII 8997, 89970A.
  • Fisher, K. A. G.; Broadbent, A.; Shalm, L. K.; Yan, Z.; Lavoie, J.; Prevedel, R.; Jennewein, T. & Resch, K. J. (2014), ‘Quantum computing on encrypted data’, NATURE COMMUNICATIONS 5, 3074.
  • Herbauts, I.; Blauensteiner, B.; Poppe, A.; Jennewein, T. & Huebel, H. (2013), ‘Demonstration of active routing of entanglement in a multi-user network’, OPTICS EXPRESS 21(23), 29013–29024.
  • Horn, R. T.; Kolenderski, P.; Kang, D.; Abolghasem, P.; Scarcella, C.; Della Frera, A.; Tosi, A.; Helt, L. G.; Zhukovsky, S. V.; Sipe, J. E.; Weihs, G.; Helmy, A. S. & Jennewein, T. (2013), ‘Inherent polarization entanglement generated from a monolithic semiconductor chip’, SCIENTIFIC REPORTS 3, 2314.
  • Meyer-Scott, E.; Bula, M.; Bartkiewicz, K.; Cernoch, A.; Soubusta, J.; Jennewein, T. & Lemr, K. (2013), ‘Entanglement-based linear-optical qubit amplifier’, PHYSICAL REVIEW A 88(1), 012327.
  • Steinlechner, F.; Ramelow, S.; Jofre, M.; Gilaberte, M.; Jennewein, T.; Torres, J. P.; Mitchell, M. W. & Pruneri, V. (2013), ‘Phase-stable source of polarization-entangled photons in a linear double-pass configuration’, OPTICS EXPRESS 21(10), 11943–11951.
  • Yan, Z.; Meyer-Scott, E.; Bourgoin, J.-P.; Higgins, B. L.; Gigov, N.; MacDonald, A.; Hubel, H. & Jennewein, T. (2013), ‘Novel High-Speed Polarization Source for Decoy-State BB84 Quantum Key Distribution Over Free Space and Satellite Links’, JOURNAL OF LIGHTWAVE TECHNOLOGY 31(9), 1399–1408.
  • Meyer-Scott, E.; Roy, V.; Bourgoin, J.-P.; Higgins, B. L.; Shalm, L. K. & Jennewein, T. (2013), ‘Generating polarization-entangled photon pairs using cross-spliced birefringent fibers’, OPTICS EXPRESS 21(5), 6205–6212.
  • Jennewein, T. & Higgins, B. (2013), ‘The quantum space race’, PHYSICS WORLD 26(3), 52–56.
  • Lutz, T.; Kolenderski, P. & Jennewein, T. (2013), ‘Toward a downconversion source of positively spectrally correlated and decorrelated telecom photon pairs’, OPTICS LETTERS 38(5), 697–699.
  • Holloway, C.; Doucette, J. A.; Erven, C.; Bourgoin, J.-P. & Jennewein, T. (2013), ‘Optimal pair-generation rate for entanglement-based quantum key distribution’, PHYSICAL REVIEW A 87(2), 022342.
  • Bourgoin, J. P.; Meyer-Scott, E.; Higgins, B. L.; Helou, B.; Erven, C.; Huebel, H.; Kumar, B.; Hudson, D.; D’Souza, I.; Girard, R.; Laflamme, R. & Jennewein, T. (2013), ‘A comprehensive design and performance analysis of low Earth orbit satellite quantum communication’, NEW JOURNAL OF PHYSICS 15, 023006
  • Ma, X.-S.; Kofler, J.; Qarry, A.; Tetik, N.; Scheidl, T.; Ursin, R.; Ramelow, S.; Herbst, T.; Ratschbacher, L.; Fedrizzi, A.; Jennewein, T. & Zeilinger, A. (2013), ‘Quantum erasure with causally disconnected choice’, PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA 110(4), 1221–1226.
  • Meyer-Scott, E.; Bourgoin, J.-P.; Shalm, L. K.; Higgins, B.; Jennewein, T. & Roy, V. (2013), ‘A Collinear Nondegenerate Source of Entangled Photon Pairs in PM Fiber’, 2013 OPTICAL FIBER COMMUNICATION CONFERENCE AND EXPOSITION AND THE NATIONAL FIBER OPTIC ENGINEERS CONFERENCE (OFC/NFOEC).
  • Shalm, L. K.; Hamel, D. R.; Yan, Z.; Simon, C.; Resch, K. J. & Jennewein, T. (2013), ‘Three-photon energy-time entanglement’, NATURE PHYSICS 9(1), 19–22.
  • Erven, C.; Heim, B.; Meyer-Scott, E.; Bourgoin, J. P.; Laflamme, R.; Weihs, G. & Jennewein, T. (2012), ‘Studying free-space transmission statistics and improving free-space quantum key distribution in the turbulent atmosphere’, NEW JOURNAL OF PHYSICS 14, 123018.
  • Rideout, D.; Jennewein, T.; Amelino-Camelia, G.; Demarie, T. F.; Higgins, B. L.; Kempf, A.; Kent, A.; Laflamme, R.; Ma, X.; Mann, R. B.; Martin-Martinez, E.; Menicucci, N. C.; Moffat, J.; Simon, C.; Sorkin, R.; Smolin, L. & Terno, D. R. (2012), ‘Fundamental quantum optics experiments conceivable with satellites-reaching relativistic distances and velocities’, CLASSICAL AND QUANTUM GRAVITY 29(22), 224011.
  • Ma, X.-S.; Herbst, T.; Scheidl, T.; Wang, D.; Kropatschek, S.; Naylor, W.; Wittmann, B.; Mech, A.; Kofler, J.; Anisimova, E.; Makarov, V.; Jennewein, T.; Ursin, R. & Zeilinger, A. (2012), ‘Quantum teleportation over 143 kilometres using active feed-forward’, NATURE 489(7415), 269–273.
  • Gottesman, D.; Jennewein, T. & Croke, S. (2012), ‘Longer-Baseline Telescopes Using Quantum Repeaters’, PHYSICAL REVIEW LETTERS 109(7), 070503.
  • Kolenderski, P.; Sinha, U.; Youning, L.; Zhao, T.; Volpini, M.; Cabello, A.; Laflamme, R. & Jennewein, T. (2012), ‘Aharon-Vaidman quantum game with a Young-type photonic qutrit’, PHYSICAL REVIEW A 86(1), 012321.
  • Yan, Z.; Hamel, D. R.; Heinrichs, A. K.; Jiang, X.; Itzler, M. A. & Jennewein, T. (2012), ‘An ultra low noise telecom wavelength free running single photon detector using negative feedback avalanche diode’, REVIEW OF SCIENTIFIC INSTRUMENTS 83(7), 073105.
  • Ma, X.-s.; Zotter, S.; Kofler, J.; Ursin, R.; Jennewein, T.; Brukner, C. & Zeilinger, A. (2012), ‘Experimental delayed-choice entanglement swapping’, NATURE PHYSICS 8(6), 479–484.
  • Steinlechner, F.; Trojek, P.; Jofre, M.; Weier, H.; Perez, D.; Jennewein, T.; Ursin, R.; Rarity, J.; Mitchell, M. W.; Torres, J. P.; Weinfurter, H. & Pruneri, V. (2012), ‘A high-brightness source of polarization-entangled photons optimized for applications in free space’, OPTICS EXPRESS 20(9).
  • Higgins, B.; Bourgoin, J.-P.; Gigov, N.; Meyer-Scott, E.; Yan, Z. & Jennewein, T. (2012), ‘Detailed Performance Analysis of the Proposed QEYSSAT Quantum Receiver Satellite’, 2012 CONFERENCE ON LASERS AND ELECTRO-OPTICS (CLEO) .
  • Kolenderski, P.; Sinha, U.; Youning, L.; Zhao, T.; Volpini, M.; Cabello, A.; Laflamme, R. & Jennewein, T. (2012), ‘Implementing the Aharon-Vaidman quantum game with a Young type photonic qutrit’, 2012 CONFERENCE ON LASERS AND ELECTRO-OPTICS (CLEO).
  • Meyer-Scott, E.; Yan, Z.; MacDonald, A.; Bourgoin, J.-P.; Huebel, H. & Jennewein, T. (2012), ‘How to Implement Decoy-State Quantum Key Distribution for a Satellite Uplink With 50 dB Channel Loss’, 2012 CONFERENCE ON LASERS AND ELECTRO-OPTICS (CLEO) .
  • Meyer-Scott, E.; Yan, Z.; MacDonald, A.; Bourgoin, J.-P.; Huebel, H. & Jennewein, T. (2011), ‘How to implement decoy-state quantum key distribution for a satellite uplink with 50-dB channel loss’, PHYSICAL REVIEW A 84(6), 062326.
  • Ma, X.-s.; Zotter, S.; Tetik, N.; Qarry, A.; Jennewein, T. & Zeilinger, A. (2011), ‘A high-speed tunable beam splitter for feed-forward photonic quantum information processing’, OPTICS EXPRESS 19(23), 22723–22730.
  • Holloway, C.; Meyer-Scott, E.; Erven, C. & Jennewein, T. (2011), ‘Quantum entanglement distribution with 810 nm photons through active telecommunication fibers’, OPTICS EXPRESS 19(21), 20597–20603.
  • Ma, X.-s.; Zotter, S.; Kofler, J.; Jennewein, T. & Zeilinger, A. (2011), ‘Experimental generation of single photons via active multiplexing’, PHYSICAL REVIEW A 83(4), 043814.
  • Jofre, M.; Gardelein, A.; Anzolin, G.; Amaya, W.; Capmany, J.; Ursin, R.; Penate, L.; Lopez, D.; San Juan, J. L.; Carrasco, J. A.; Garcia, F.; Torcal-Milla, F. J.; Sanchez-Brea, L. M.; Bernabeu, E.; Perdigues, J. M.; Jennewein, T.; Torres, J. P.; Mitchell, M. W. & Pruneri, V. (2011), ‘Fast optical source for quantum key distribution based on semiconductor optical amplifiers’, OPTICS EXPRESS 19(5), 3825–3834.
  • Huebel, H.; Hamel, D. R.; Resch, K. J. & Jennewein, T. (2011), ‘Generation of various tri-partite entangled states using cascaded spontaneous down-conversion’, QUANTUM COMMUNICATION, MEASUREMENT AND COMPUTING (QCMC): THE TENTH INTERNATIONAL CONFERENCE 1363.
  • Pernechele, C.; Tamburini, F.; Jennewein, T. & Zeilinger, A. (2011), ‘An all-spheric unobstructed optical terminal for free-space quantum communication’, OPTICAL DESIGN AND ENGINEERING IV 8167, 81671E.
  • Jennewein, T.; Huebel, H.; Hamel, D.; Fedrizzi, A.; Ramelov, S.; Resch, K.; Sinha, U.; Couteau, C.; Laflamme, R. & Weihs, G. (2011), ‘Triple photons and triple slits, a new frontier in quantum mechanics tests’, 2011 CONFERENCE ON LASERS AND ELECTRO-OPTICS (CLEO).
  • Jennewein, T.; Barbieri, M. & White, A. G. (2011), ‘Single-photon device requirements for operating linear optics quantum computing outside the post-selection basis’, JOURNAL OF MODERN OPTICS 58(3-4), 276–287.
  • Scheidl, T.; Ursin, R.; Kofler, J.; Ramelow, S.; Ma, X.-S.; Herbst, T.; Ratschbacher, L.; Fedrizzi, A.; Langford, N. K.; Jennewein, T. & Zeilinger, A. (2010), ‘Violation of local realism with freedom of choice’, PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA 107(46), 19708–19713.
  • Huebel, H.; Hamel, D. R.; Fedrizzi, A.; Ramelow, S.; Resch, K. J. & Jennewein, T. (2010), ‘Direct generation of photon triplets using cascaded photon-pair sources’, NATURE 466(7306), 601–603.
  • Sinha, U.; Couteau, C.; Jennewein, T.; Laflamme, R. & Weihs, G. (2010), ‘Ruling Out Multi-Order Interference in Quantum Mechanics’, SCIENCE 329(5990), 418–421.