Piotr Sierant | |
Quantum Simulations Group Pokój: F-1-01 Telefon: 4826 ORCID: 0000-0001-9219-7274 Publons |
[1] | P. Falcão, A. Aramthottil, P. Sierant, J. ZakrzewskiMany-body localization crossover is sharper in quasiperiodic spin chains ArXiv e-prints, 2408.02590 (2024). |
[2] | A. Aramthottil, P. Sierant, M. Lewenstein, J. ZakrzewskiPhenomenology of many-body localization in bond-disordered spin chains ArXiv e-prints, 2405.10062 (2024). |
[3] | P. Sierant, M. Lewenstein, A. Scardicchio, L. Vidmar, J. ZakrzewskiMany-Body Localization in the Age of Classical Computing ArXiv e-prints, 2403.07111 (2024). |
[4] | T. Szołdra, P. Sierant, M. Lewenstein, J. ZakrzewskiCatching thermal avalanches in the disordered XXZ model Physical Review B 109,134202 (2024). [arxiv] |
[5] | K. Pawlik, P. Sierant, L. Vidmar, J. ZakrzewskiMany-body mobility edge in quantum sun models Physical Review B 109,L180201 (2024). |
[6] | T. Szołdra, P. Sierant, M. Lewenstein, J. ZakrzewskiTracking locality in the time evolution of disordered systems Physical Review B 107,054204 (2023). [arxiv] |
[7] | P. Sierant, M. Lewenstein, A. Scardicchio, J. ZakrzewskiStability of many-body localization in Floquet systems Physical Review B 107,115132 (2023). [arxiv] |
[8] | P. Sierant, T. Chanda, M. Lewenstein, J. ZakrzewskiSlow dynamics of a mobile impurity interacting with an Anderson insulator Physical Review B 107,144201 (2023). [arxiv] |
[9] | H. Korbmacher, P. Sierant, W. Li, X. Deng, J. Zakrzewski, L. SantosLattice control of nonergodicity in a polar lattice gas Physical Review A 107,013301 (2023). [arxiv] |
[10] | B. De, P. Sierant, J. ZakrzewskiOn intermediate statistics across many-body localization transition Journal of Physics A: Mathematical and Theoretical 55,014001 (2022). [arxiv] |
[11] | P. Sierant, G. Chiriacò, F. Surace, S. Sharma, X. Turkeshi, M. Dalmonte, R. Fazio, G. PaganoDissipative Floquet Dynamics: from Steady State to Measurement Induced Criticality in Trapped-ion Chains Quantum 6,638 (2022). [arxiv] |
[12] | P. Sierant, X. TurkeshiUniversal Behavior beyond Multifractality of Wave Functions at Measurement-Induced Phase Transitions Physical Review Letters 128,130605 (2022). [arxiv] |
[13] | T. Szołdra, P. Sierant, M. Lewenstein, J. ZakrzewskiUnsupervised detection of decoupled subspaces: Many-body scars and beyond Physical Review B 105,224205 (2022). [arxiv] |
[14] | P. Sierant, J. ZakrzewskiChallenges to observation of many-body localization Physical Review B 105,224203 (2022). [arxiv] |
[15] | P. Kubala, P. Sierant, G. Morigi, J. ZakrzewskiErgodicity breaking with long-range cavity-induced quasiperiodic interactions Physical Review B 103,174208 (2021). [arxiv] |
[16] | P. Sierant, E. Lazo, M. Dalmonte, A. Scardicchio, J. ZakrzewskiConstraint-Induced Delocalization Physical Review Letters 127,126603 (2021). [arxiv] |
[17] | T. Szołdra, P. Sierant, K. Kottmann, M. Lewenstein, J. ZakrzewskiDetecting ergodic bubbles at the crossover to many-body localization using neural networks Physical Review B 104,A3 (2021). [arxiv] |
[18] | A. Aramthottil, T. Chanda, P. Sierant, J. ZakrzewskiFinite-size scaling analysis of the many-body localization transition in quasiperiodic spin chains Physical Review B 104,A4 (2021). [arxiv] |
[19] | P. Sierant, D. Delande, J. ZakrzewskiThouless Time Analysis of Anderson and Many-Body Localization Transitions Phys. Rev. Lett. 124,186601 (2020). [arxiv] |
[20] | P. Sierant, J. ZakrzewskiModel of level statistics for disordered interacting quantum many-body systems Phys. Rev. B 101,104201 (2020). [arxiv] |
[21] | T. Chanda, P. Sierant, J. ZakrzewskiTime dynamics with matrix product states: Many-body localization transition of large systems revisited Phys. Rev. B 101,035148 (2020). [arxiv] |
[22] | K. Suthar, P. Sierant, J. ZakrzewskiMany-body localization with synthetic gauge fields in disordered Hubbard chains Phys. Rev. B 101,134203 (2020). [arxiv] |
[23] | A. Maksymov, P. Sierant, J. ZakrzewskiMany-body localization in a one-dimensional optical lattice with speckle disorder Physical Review B 102,10.1103/PhysRevB.102.134205 (2020). [arxiv] |
[24] | P. Sierant, M. Lewenstein, J. ZakrzewskiPolynomially Filtered Exact Diagonalization Approach to Many-Body Localization Physical Review Letters 125,156601 (2020). [arxiv] |
[25] | T. Chanda, P. Sierant, J. ZakrzewskiMany-body localization transition in large quantum spin chains: The mobility edge Physical Review Research 2,032045 (2020). [arxiv] |
[26] | P. Sierant, J. ZakrzewskiLevel statistics across the many-body localization transition Phys. Rev. B 99,104205 (2019). [arxiv] |
[27] | P. Sierant, A. Maksymov, M. Kuś, J. ZakrzewskiFidelity susceptibility in Gaussian random ensembles Phys. Rev. E 99,050102 (2019). [arxiv] |
[28] | A. Maksymov, P. Sierant, J. ZakrzewskiEnergy level dynamics across the many-body localization transition Phys. Rev. B 99,224202 (2019). [arxiv] |
[29] | M. Rams, P. Sierant, O. Dutta, P. Horodecki, J. ZakrzewskiAt the Limits of Criticality-Based Quantum Metrology: Apparent Super-Heisenberg Scaling Revisited Phys. Rev. X 8,021022 (2018). [arxiv] |
[30] | P. Sierant, D. Delande, J. ZakrzewskiMany-body localization due to random interactions Phys. Rev. A 95,021601 (2017). [arxiv] |
[31] | P. Sierant, D. Delande, J. ZakrzewskiMany-body localization for randomly interacting bosons Acta Phys. Polon. A 132,1707 (2017). [arxiv] |
[32] | T. Sowiński, M. Łącki, O. Dutta, J. Pietraszewicz, P. Sierant, M. Gajda, J. Zakrzewski, M. LewensteinTunneling-Induced Restoration of the Degeneracy and the Time-Reversal Symmetry Breaking in Optical Lattices Phys. Rev. Lett. 111,215302 (2013). [arxiv] |