PhD thesis[1] Relativistic quantum cryptographyCentre for Quantum Technologies, National University of Singapore (2015)[arXiv:1512.00602] Published articles[2] Robust self-testing of two-qubit statesT. Coopmans, J. Kaniewski, C. SchaffnerPhysical Review A 99, 052123 (2019)[arXiv:1902.00870] [DOI:10.1103/PhysRevA.99.052123] [3] Self-testing mutually unbiased bases in the prepare-and-measure scenarioM. Farkas, J. KaniewskiPhysical Review A 99, 032316 (2019)[arXiv:1803.00363] [DOI:10.1103/PhysRevA.99.032316] [4] Self-testing entangled measurements in quantum networksM. O. Renou, J. Kaniewski, N. BrunnerPhysical Review Letters 121, 250507 (2018)[arXiv:1807.04956] [DOI:10.1103/PhysRevLett.121.250507] [5] Self-testing quantum states and measurements in the prepare-and-measure scenarioA. Tavakoli, J. Kaniewski, T. Vértesi, D. Rosset, N. BrunnerPhysical Review A 98, 062307 (2018)[arXiv:1801.08520] [DOI:10.1103/PhysRevA.98.062307] [6] Device independence for two-party cryptography and position verification with memoryless devicesJ. Ribeiro, T. Le Phuc, J. Kaniewski, J. Helsen and S. WehnerPhysical Review A 97, 062307 (2018)[arXiv:1606.08750] [DOI:10.1103/PhysRevA.97.062307] [7] Geometry of the set of quantum correlationsK. T. Goh, J. Kaniewski, E. Wolfe, T. Vértesi, X. Wu, Y. Cai, Y.-C. Liang, V. ScaraniPhysical Review A 97, 022104 (2018)[arXiv:1710.05892] [DOI:10.1103/PhysRevA.97.022104] [8] Self-testing of binary observables based on commutationJ. KaniewskiPhysical Review A 95, 062323 (2017)[arXiv:1702.06845] [DOI:10.1103/PhysRevA.95.062323] [9] Quantum preparation uncertainty and lack of informationF. Rozpędek, J. Kaniewski, P. J. Coles and S. WehnerNew Journal of Physics 19, 023038 (2017)[arXiv:1606.05565] [DOI:10.1088/1367-2630/aa5d64] [10] A universal test for gravitational decoherenceC. Pfister, J. Kaniewski, M. Tomamichel, A. Mantri, R. Schmucker, N. McMahon, G. Milburn and S. WehnerNature Communications 7, 13022 (2016)[arXiv:1503.00577] [DOI:10.1038/ncomms13022] [11] Analytic and nearly optimal self-testing bounds for the Clauser-Horne-Shimony-Holt and Mermin inequalitiesJ. KaniewskiPhysical Review Letters 117, 070402 (2016)[arXiv:1604.08176] [DOI:10.1103/PhysRevLett.117.070402] [12] Device-independent two-party cryptography secure against sequential attacksJ. Kaniewski and S. WehnerNew Journal of Physics 18, 055004 (2016)[arXiv:1601.06752] [DOI:10.1088/1367-2630/18/5/055004] [13] Practical relativistic bit commitmentT. Lunghi, J. Kaniewski, F. Bussières, R. Houlmann, M. Tomamichel, S. Wehner and H. ZbindenPhysical Review Letters 115, 030502 (2015)[arXiv:1411.4917] [DOI:10.1103/PhysRevLett.115.030502] [14] Equivalence of wave-particle duality to entropic uncertaintyP. J. Coles, J. Kaniewski and S. WehnerNature Communications 5, 5814 (2014)[arXiv:1403.4687] [DOI:10.1038/ncomms6814] [15] Entropic uncertainty from effective anticommutatorsJ. Kaniewski, M. Tomamichel and S. WehnerPhysical Review A 90, 012332 (2014)[arXiv:1402.5722] [DOI:10.1103/PhysRevA.90.012332] [16] Experimental bit commitment based on quantum communication and special relativityT. Lunghi, J. Kaniewski, F. Bussières, R. Houlmann, M. Tomamichel, A. Kent, N. Gisin, S. Wehner and H. ZbindenPhysical Review Letters 111, 180504 (2013)[arXiv:1306.4801] [DOI:10.1103/PhysRevLett.111.180504] [17] A monogamy-of-entanglement game with applications to device-independent quantum cryptographyM. Tomamichel, S. Fehr, J. Kaniewski and S. WehnerNew Journal of Physics 15, 103002 (2013)[arXiv:1210.4359] [DOI:10.1088/1367-2630/15/10/103002] [18] Secure bit commitment from relativistic constraintsJ. Kaniewski, M. Tomamichel, E. Hänggi and S. WehnerIEEE Transactions on Information Theory 59, 7 (2013)[arXiv:1206.1740] [DOI:10.1109/TIT.2013.2247463] [19] Acyclic versus cyclic π-electron delocalization. How is the substituent effect related to π-electron delocalization?M. Dobrowolski, J. Kaniewski, T. Krygowski, M. CyrańskiCollection of Czechoslovak Chemical Communications 74, 115 (2009)[DOI:10.1135/cccc2008171] Refereed proceedings[20] Query complexity in expectationJ. Kaniewski, T. Lee and R. de WolfAutomata, Languages, and ProgrammingLecture Notes in Computer Science 9134 (2015)[arXiv:1411.7280] [DOI:10.1007/978-3-662-47672-7_62] [21] One-sided device-independent QKD and position-based cryptography from monogamy gamesM. Tomamichel, S. Fehr, J. Kaniewski and S. WehnerAdvances in Cryptology -- EUROCRYPT 2013Lecture Notes in Computer Science 7881 (2013)[arXiv:1210.4359] [DOI:10.1007/978-3-642-38348-9_36] Preprints[22] Incompatibility robustness of quantum measurements: a unified frameworkS. Designolle, M. Farkas, J. Kaniewski[arXiv:1906.00448] [23] Maximal randomness from partially entangled statesE. Woodhead, J. Kaniewski, B. Bourdoncle, A. Salavrakos, J. Bowles, R. Augusiak, A. Acín[arXiv:1901.06912] [24] Maximal nonlocality from maximal entanglement and mutually unbiased bases, and self-testing of two-qutrit quantum systemsJ. Kaniewski, I. Šupić, J. Tura, F. Baccari, A. Salavrakos, R. Augusiak[arXiv:1807.03332] Click here to see all my papers and preprints on the arXiv. |