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Selected Scientific Publications

  1. Secure quantum random number generation with perovskite photonics J Argillander, A Alarcón, C Bao, C Kuang, G Lima, F Gao, GB Xavier, Quantum Computing, Communication, and Simulation IV 12911, 385-389 (2024)

  2. Method for quantum generation of random numbers especially in lotteries and gaming and device for quantum generation of random numbers, M Pawlowski, GDAM Lima, US Patent App. 17/996,335 (2023)

  3. Quantum random number generation based on a perovskite light emitting diode, J Argillander, A Alarcón, C Bao, C Kuang, G Lima, F Gao, GB Xavier, Communications Physics 6 (1), 157 (2023)

  4. Self-testing quantum random number generator with easily testable assumptions, M Pawłowski, M Jarzyna, K Łukanowski, M Jachura, K Banaszek, 2022 IEEE International Conference on Quantum Computing and Engineering (QCE ) (2022)

  5. Quantum randomness protected against detection loophole attacks, Piotr Mironowicz, Gustavo Cañas, Jaime Cariñe, Esteban S. Gómez, Johanna F. Barra, Adán Cabello, Guilherme B. Xavier, Gustavo Lima, Marcin Pawłowski,  Quantum Inf. Process. Vol 20, Issue 1 (2021)

  6. Multi-core fiber integrated multi-port beam splitters for quantum information processing, J. Cariñe, G. Cañas, P. Skrzypczyk, I. Šupić, N. Guerrero, T. Garcia, L. Pereira, M. A. S. Prosser, G. B. Xavier, A. Delgado, S. P. Walborn, D. Cavalcanti, and G. Lima, Optica 7 547 (2020).  

  7. Experimental investigation of partially entangled states for device-independent randomness generation and self-testing protocols, S Gómez, A Mattar, I Machuca, ES Gómez, D Cavalcanti, OJ Farías, Antonio Acín, Gustavo Lima, Physical Review A 99 (3), 032108 (2019)

  8. Experimental nonlocality-based randomness generation with nonprojective measurements, S Gómez, A Mattar, ES Gómez, D Cavalcanti, OJ Farías, A Acín, G Lima, Physical Review A 97 (4), 040102 (2018)

  9. On the security of semi-device-independent QKD protocols, A Chaturvedi, M Ray, R Veynar, M Pawłowski, Quantum information processing 17, 1-20 (2018).

  10. Experimental multipartite entanglement and randomness certification of the W state in the quantum steering scenario, A Máttar, P Skrzypczyk, GH Aguilar, RV Nery, PHS Ribeiro, SP Walborn, …, Quantum Science and Technology 2 (1), 015011 (2017).

  11. Increased certification of semi-device independent random numbers using many inputs and more post-processing, P Mironowicz, A Tavakoli, A Hameedi, B Marques, M Pawłowski, Mohamed Bourennane, New Journal of Physics 18 (6), 065004 (2016)

  12. Device-and semi–device-independent random numbers based on noninequality paradox, HW Li, M Pawłowski, R Rahaman, GC Guo, ZF Han, Physical Review A 92 (2), 022327 (2015)

  13. Detection efficiency and noise in a semi-device-independent randomness-extraction protocol, HW Li, ZQ Yin, M Pawłowski, GC Guo, ZF Han, Physical Review A 91 (3), 032305 (2015).

  14. Amplification of arbitrarily weak randomness, P Mironowicz, R Gallego, M Pawłowski, Phys. Rev. A 91, 032317 (2015).

  15. Free randomness amplification using bipartite chain correlations, A Grudka, K Horodecki, M Horodecki, P Horodecki, M Pawłowski, Ravishankar Ramanathanm Physical Review A 90 (3), 032322 (2014).

  16. Device-independent randomness extraction from an arbitrarily weak min-entropy source, J Bouda, M Pawłowski, M Pivoluska, M Plesch, Physical Review A 90 (3), 032313 (2014).

  17. Device-independent certification of high-dimensional quantum systems, V D’Ambrosio, F Bisesto, F Sciarrino, JF Barra, G Lima, A Cabello, Physical Review Letters 112 (14), 140503 (2014).

  18. Robustness of quantum randomness expansion protocols in the presence of noise, Piotr Mironowicz, Marcin Pawłowski, Phys. Rev. A 88, 032319 (2013)

  19. One-sided device-independent quantum key distribution: Security, feasibility, and the connection with steering, C Branciard, EG Cavalcanti, SP Walborn, V Scarani, HM Wiseman, Physical Review A 85 (1), 010301 (2012)

  20. Semi-device independent randomness certification using n->1 quantum random access codes, Hong-Wei Li, Marcin Pawłowski, Zhen-Qiang Yin, Guang-Can Guo, and Zheng-Fu Han, Phys. Rev. A 85, 052308 (2012)

  21. Semi-device-independent security of one-way quantum key distribution, M Pawłowski, N Brunner, Physical Review A 84 (1), 010302 (2011).

  22. Security proof for cryptographic protocols based only on the monogamy of Bell's inequality violations, Marcin Pawlowski, Phys. Rev. A 82, 032313 (2010).  

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