PROJECTS
1. Self-testing protocols for multipartite quantum states (05/2018-07/2021)
A First TEAM project funded by the Foundation for Polish Science and co-financed by the European Union under the European Regional Development Fund.
www.fnp.org.pl/grantobiorcy-first-team-konkurs-42017
Its main aim of the project is to design efficient and robust self-testing protocols for multipartite quantum systems.
ARTICLES IN THE PROJECT:
[1] M. Demianowicz, R. Augusiak, Entanglement of genuinely entangled subspaces and states: exact, approximate, and numerical results, accepted for publication in Physical Review A (arXiv:1907.12463).
[2] R. Augusiak, A. Salavrakos, J. Tura, A. Acín, Bell inequalities tailored to the Greenberger-Horne-Zeilinger states of arbitrary local dimension, New Journal of Physics 21, 113001 (2019). [link to pdf]
[3] J. Kaniewski, I. Šupić, J. Tura, F. Baccari, A. Salavrakos, R. Augusiak, Maximal nonlocality from maximal entanglement and mutually unbiased bases, and self-testing of two-qutrit quantum systems, Quantum 3, 198 (2019). [pdf]
[4] J. Tura, A. Aloy, F. Baccari, A. Acin, M. Lewenstein, R. Augusiak, Optimization of device-independent witnesses of entanglement depth from two-body correlators, Physical Review A 100, 032307 (2019).
[5] A. Aloy, J. Tura, F. Baccari, A. Acin, M. Lewenstein, R. Augusiak, Device-independent witnesses of entanglement depth from two-body correlations, Physical Review Letters 123, 100507 (2019). [pdf]
[6] F. Baccari, J. Tura, M. Fadel, A. Aloy, J.-D. Bancal, N. Sangouard, M. Lewenstein, A. Acin, R. Augusiak, Bell correlations depth in many-body systems, Physical Review A 100, 022121 (2019). [pdf]
[7] I. Šupić, A. Coladangelo, R. Augusiak, A. Acín, A simple approach to self-testing multipartite states,
New Journal of Physics 20, 083041 (2018). [pdf]
1. Self-testing protocols for multipartite quantum states (05/2018-07/2021)
A First TEAM project funded by the Foundation for Polish Science and co-financed by the European Union under the European Regional Development Fund.
www.fnp.org.pl/grantobiorcy-first-team-konkurs-42017
Its main aim of the project is to design efficient and robust self-testing protocols for multipartite quantum systems.
ARTICLES IN THE PROJECT:
[1] M. Demianowicz, R. Augusiak, Entanglement of genuinely entangled subspaces and states: exact, approximate, and numerical results, accepted for publication in Physical Review A (arXiv:1907.12463).
[2] R. Augusiak, A. Salavrakos, J. Tura, A. Acín, Bell inequalities tailored to the Greenberger-Horne-Zeilinger states of arbitrary local dimension, New Journal of Physics 21, 113001 (2019). [link to pdf]
[3] J. Kaniewski, I. Šupić, J. Tura, F. Baccari, A. Salavrakos, R. Augusiak, Maximal nonlocality from maximal entanglement and mutually unbiased bases, and self-testing of two-qutrit quantum systems, Quantum 3, 198 (2019). [pdf]
[4] J. Tura, A. Aloy, F. Baccari, A. Acin, M. Lewenstein, R. Augusiak, Optimization of device-independent witnesses of entanglement depth from two-body correlators, Physical Review A 100, 032307 (2019).
[5] A. Aloy, J. Tura, F. Baccari, A. Acin, M. Lewenstein, R. Augusiak, Device-independent witnesses of entanglement depth from two-body correlations, Physical Review Letters 123, 100507 (2019). [pdf]
[6] F. Baccari, J. Tura, M. Fadel, A. Aloy, J.-D. Bancal, N. Sangouard, M. Lewenstein, A. Acin, R. Augusiak, Bell correlations depth in many-body systems, Physical Review A 100, 022121 (2019). [pdf]
[7] I. Šupić, A. Coladangelo, R. Augusiak, A. Acín, A simple approach to self-testing multipartite states,
New Journal of Physics 20, 083041 (2018). [pdf]
2. Non-locality in Multipartite Quantum System, (1/04/2016-31/03/2018)
Marie Skłodowska-Curie Individual Fellowship funded within the Horizon 2020 programme
(Grant No. 705109)
The main objective of this project was to address certain open problems concerning of Bell non-locality in multipartite quantum systems.
ARTICLES IN THIS PROJECT:
[1] F. Baccari, J. Tura, M. Fadel, A. Aloy, J.-D. Bancal, N. Sangouard, M. Lewenstein, A. Acin, R. Augusiak, Bell correlations depth in many-body systems, Physical Review A 100, 022121 (2019).
[link to the paper] [arXiv version]
[2] F. J. Curchod, M. Johansson, R. Augusiak, M. J. Hoban, P. Wittek, A. Acin,
Entangled systems are unbounded sources of nonlocal correlations and of certified random numbers, Lebniz International Proceedings in Informatics 73, (2018); proceedings of TQC2017.
[link to the paper] [arXiv version]
[3] M. Demianowicz, R. Augusiak, From unextendible product bases to genuinely entangled subspaces, Physical Review A 98, 012313 (2018).
[link to the paper] [arXiv version]
[4] I. Šupić, A. Coladangelo, R. Augusiak, A. Acín, Self-testing multipartite entangled states through projections onto two systems, New Journal of Physics 20, 083041 (2018).
[link to the paper] [arXiv version] [pdf]
[5] R. Augusiak, M. Demianowicz, J. Tura,
Constructing genuinely entangled multipartite states with applications to local hidden variables and local hidden states models, Physical Review A 98, 012321 (2018).
[link to the paper] [arXiv version]
[6] J. Wang, S. Paesani, Y. Ding, R. Santagati, P. Skrzypczyk, A. Salavrakos, J. Tura, R. Augusiak, L. Mančinska, D. Bacco, D. Bonneau, J. W. Silverstone, Q. Gong, A. Acin, K. Rottwitt, L. K. Oxenløwe, J. L. O'Brien, A. Laing, M. G. Thompson, Multidimensional quantum entanglement with large-scale integrated optics, Science 360, 285 (2018)
[link to the paper] [arXiv version] [the press release]
[7] R. Augusiak, Simple and tight monogamy relations for a class of Bell inequalities, Physical Review A 96, 049901 (2017); 96 0499091(E) (2017).
[link to the paper] [arXiv version]
[8] J. Tura, G. de las Cuevas, R. Augusiak, M. Lewenstein, A. Acín, I. Cirac, Energy as a detector of nonlocality many-body spin systems, Physical Review X 7, 021005 (2017).
[link to the paper] [arXiv version]
[9] A. Salavrakos, R. Augusiak, J. Tura, P. Wittek, A. Acín, S. Pironio, Bell inequalities for maximally entangled states, Physical Review Letters 119, 040402 (2017).
[link to the paper] [arXiv version]
[10] M. Oszmaniec, R. Augusiak, C. Gogolin, J. Kołodyński, A. Acin, M. Lewenstein, Random bosonic states for robust quantum metrology, Physical Review X 6, 041044 (2016).
[link to the paper] [arXiv version]
[11] R. Augusiak, J. Kołodyński, A. Streltsov, M. N. Bera, A. Acin, M. Lewenstein, Asymptotic irrelevance of entanglement in quantum metrology, Phys. Rev. A 94, 012339 (2016).
[link to the paper] [arXiv version]
3. Entanglement and Correlations in Many-Body Quantum Systems
Juan de la Cierva Scholarship funded by the Spanish Ministry of Competitiveness
