People

Publications of Jerzy Dajka

1. R. Tomaszewski, J. Dajka, Statistical image analysis and escort histograms in characterization of articular cartilage repair in a skeleton animal model, PLOS ONE 2021 (accepted)
   
2. J. Dajka, Currents in a quantum nanoring controlled by non-classical electromagnetic field, Entropy 2021, 23(6)
   
3. F. Khan, J. Dajka, Geometric speed limit of neutrino oscillation, Quant. Inf. Proc. (2021) https://doi.org/10.1007/s11128-021-03128-7
4. J. Dajka, Faint trace of a particle in a noisy Vaidman three-path interferometer, Scientific Reports 11:1123 (2021) https://doi.org/10.1038/s41598-020-80806-z
5. R. Tomaszewski, E. Rutz, J. Mayr, J. Dajka, Surgical treatment of benign lesions and pathologic fractures of the proximal femur in children, Archives of Orthopaedic and Trauma Surgery, 2020 https://doi.org/10.1007/s00402-020-03687-x
6. F. Khan, J. Dajka, Neutrino Oscillations in the Presence of Matter and Continuous Non-Selective Measurement, Symmetry, 2020, 12(8), 1296; https://doi.org/10.3390/sym12081296
7. J. Dajka, J. Łuczka, Binary communication with Gazeau--Klauder coherent states, Entropy 2020, 22(2), 201, https://doi.org/10.3390/e22020201
8. Jerzy Dajka , Scattering--like control of the Cheshire Cat effect in open quantum systems, Quantum Reports 2020, 2(1), 1-11; https://doi.org/10.3390/quantum2010001
9. K. Jalowiecki, J. Dajka, Multi-partite entanglement in Davies environment, Eur. Phys. J. Spec. Top. (2019). https://doi.org/10.1140/epjst/e2019-800042-9
10. M. Lobejko, J. Dajka,  J. Luczka, Self-averaging of random quantum dynamics, Phys. Rev. A 98, 022111 (2018) https://doi.org/10.1103/PhysRevA.98.022111
11. M. Richter, M. Lobejko, J. Dajka, Quantum contextuality of a single neutrino under interactions with matter, New J. Phys. 20, 063040 (2018) https://doi.org/10.1088/1367-2630/aacb9f

12. M. Richter, B. Dziewit, J. Dajka, The quantum Cheshire Cat effect in a presence of decoherence,  Adv. Math. Phys. Volume (2018), Article ID 7060586, 8 pages https://doi.org/10.1155/2018/7060586

13. M. Richter, B. Dziewit, J. Dajka, Leggett-Garg K 3 quantity discriminates between Dirac and Majorana neutrinos, Phys Rev. D 96, 076008 (2017)
14. B. Dziewit, M. Richter, J. Dajka, Distinguishing quantum states using time traveling qubits in a presence of thermal environments, Phys. Rev. A 95, 032136 (2017)
15. M. Łobejko, J. Łuczka, J. Dajka, Leggett-Garg inequalities for a quantum top affected by classical noise, Quantum Information Processing, (2016) 15: 4911. doi:10.1007/s11128-016-1401-1
16. M. Łobejko, J. Dajka, Leggett-Garg inequalities violation via the Fermi contact hyperfine interaction,  Fortschritte der Physik - Progress of Physics, 1–6 (2016) / DOI 10.1002/prop.201600041
17. J. Dajka, J. Łuczka, Quantum cloning disturbed by thermal Davies
    environment,  Quantum Information Processing,  doi: 10.1007/s11128-016-1278-z  (2016)
18. B. Gardas, J. Łuczka, A. Ptok, J. Dajka, Energetics of an rf SQUID coupled to two thermal reservoirs, PLOS ONE 10(12): e0143912. doi:10.1371/journal.pone.0143912 (2015)
19. J. Dajka, M. Łobejko, J. Sładkowski, Payoffs and coherence of quantum two player game in thermal environment, Entropy 17(11), 7736-7751(2015)
20. M. Łobejko, J. Dajka, Violation of Leggett—Garg inequalities for quantum-classical hybrids, J. Phys.: Conf. Ser. 626 (2015) 012038
21. J. Dajka, D. Kłoda, M. Łobejko, J. Sładkowski, Quantum two player game in thermal environment, PLOS ONE 10(8): e0134916. doi:10.1371/journal.pone.0134916 (2015)
22. M. Łobejko, M. Mierzejewski, J. Dajka, Interference of qubits in pure dephasing and almost pure dephasing environments, J. Phys. A, 48 275302 (2015)
23. M. Mierzejewski, J. Bonca, and J. Dajka, Reversal of relaxation due to a dephasing environment, Phys. Rev. A 91, 052112 (2015)
24.  M. Łobejko, J. Łuczka, J. Dajka, Leggett--Garg inequality for qubits coupled to thermal environment, Phys. Rev. A 91, 042113 (2015)
25. J. Dajka, J. Łuczka, J. Phys. A 48, 238002 (2015)
26. D. Kłoda, J. Dajka, Temperature-independent teleportation of qubits in Davies environments, Quant. Inf. Proc. 14, 135 (2015)
27. B. Gardas, J. Dajka,  Phys. Lett. A 378, 1970 (2014)
28. B. Gardas, J. Dajka,  J. Phys. A, 47, 168002 (2014)
29. J. Dajka, Disentanglement of qubits in classical limit of interaction, Int. J. Theor. Phys. 53, 870 (2014)
30. B. Gardas, J. Dajka, Multi-photon Rabi model: Generalized parity and its applications, Phys. Lett. A 377, 3205 (2013)
31. J. Syska, J. Dajka, J. Łuczka, Interference phenomenon and geometric phase for Dirac neutrino in $\pi^{+}$ decay, Phys. Rev. D 87, 117302 (2013)
32. B. Gardas, J. Dajka, New symmetry in the Rabi model, J. Phys. A 46 265302 (2013)
33. B. Gardas, J. Dajka, Initial states of qubit--boson models leading to conserved quantities, J. Phys. A  46 235301 (2013)
34. J. Dajka, J. Łuczka,  Swapping of correlations via teleportation with decoherence, Phys. Rev A 87, 022301 (2013)
35. J. Dajka, B. Gardas, J. Luczka, Relation between purity of an open qubit dynamics and its initial correlation with an environment, Int. J. Theor. Phys. 52, 1148 (2013)
36. J. Dajka, M. Mierzejewski, J. Łuczka, R. Blattmann, P. Hanggi, Negativity and quantum discord in Davies environments, J. Phys. A 45, 485305 (2012)
37. J. Dajka, A. Ptok, J. Łuczka, Squeezing of magnetic flux in nanorings, J. Phys: Cond. Mat. 24, 495701 (2012)
38. J. Dajka, J. Łuczka, Trace distance and linear entropy of qubit states: role of initial qubit-environment correlations, Rep. Math. Phys. 70, 193 (2012)
39. J. Dajka, J. Łuczka, Gazeau--Klauder cat states, J. Phys. A 45, 244006 (2012)
40. J. Dajka and J. Łuczka, Geometric phase of open two-level systems, Acta Phys. Polon. B 43,  921 (2012)
41. J. Dajka, J. Łuczka, P. Hanggi, Distance between quantum states in presence of initial
    qubit--environment correlations: A comparative study, Phys.  Rev. A 84, 032120 (2011)
42. J. Dajka, J. Syska, J. Łuczka, Geometric phase of neutrino propagating through dissipative matter, Phys. Rev. D 83, 097302 (2011)
43. J. Dajka, J. Luczka and P. Hanggi, Geometric phase as a determinant of a qubit--environment coupling, Quantum Information Processing  10, 85 (2011)
44. J. Dajka, J. Łuczka, Distance growth of quantum states due to initial system-environment correlations, Phys. Rev. A 82, 012341 (2010)
45. M. Mierzejewski, J. Luczka and J. Dajka, Current in Hubbard rings manipulated via magnetic flux, J. Phys.: Condensed Matter 22, 245301 (2010)
46. J. Dajka, M. Mierzejewski, J. Łuczka, P. Hanggi, Dephasing of qubits by the Schrodinger cat, Physica E 42, 374-377 (2010)
47. J. Dajka and J. Luczka, Magnetic flux in a mesoscopic SQUID controlled by nonclassical electromagnetic fields, Phys. Rev. B 80, 174529 (2009)
48. J. Dajka, M. Mierzejewski, and J. Luczka, Geometric phase of interacting qubits: Mean-field analysis, Phys. Rev. A 80, 044303 (2009)
49. J. Dajka, M. Mierzejewski, J. Luczka, Analytically solvable model for the entanglement via scattering-like mechanisms, Quantum Inf Process, 8:461–475 (2009)
50. M. Kurpas, J. Dajka, E. Zipper, Entanglement of qubits via a nonlinear resonator, J. Phys. Cond. Matter, 21 (2009) 235602
51. Ł. Machura, J. Dajka and J. Łuczka, Transmission of magnetic signals in noisy mesorings, J. Stat. Mech. (2009) P0103
52. J. Dajka, J. Łuczka and P. Hanggi, Entanglemant swapping in presence of dephasing, phys. stat sol (b),246, No. 5, 936 – 940 (2009)
53. J. Dajka, M. Mierzejewski and J. Łuczka, Fidelity of asymmetric dephasing channels, Phys. Rev. A 79, 012104 (2009)
54. J. Dajka and J. Łuczka, Bifurcations of the geometric phase of a qubit asymmerically coupled to the environment, J. Phys. A 41, F442001 (2008)
55. E. Zipper, M. Kurpas, J. Dajka and M. Kuś, Entanglement of distant flux qubits mediated by non-classical electromagnetic field, J. Phys: Condensed Matter, 20, 275219 (2008)
56. M Kurpas, J Dajka and E Zipper, Coherent coupling of two semiconducting flux qubits, J. Phys.: Conf. Ser. 104 012004 (2008)
57. J. Dajka and J. Łuczka, Origination and survival of qudit-qudit entanglement in open system, Phys. Rev. A 77 (2008)
58. M. Szelag, J. Dajka, E. Zipper and J. Łuczka, Heat currents in non-superconducting flux qubits, Acta Phys. Polon. B 39 (2008)
59. J. Dajka, L. Machura, S. Rogozinski and J. Łuczka, Mesoscopic rings: multi-states induced by quantum thermal fluctuations, Materials Science 26 (2008)
60. J. Dajka, M. Mierzejewski and J. Łuczka, Non-Markovian entanglement evolution of two uncoupled qubits, Phys. Rev. A 77, 042316 (2008)
61. J. Dajka, M. Mierzejewski, J. Luczka, Geometric phase of a qubit in dephasing environments, J. Phys. A: Math. Theor. 41, F012001 (2008)
62. J. Dajka, M. Mierzejewski, J. Luczka, Entanglement persistence in contact with environment: exact results,J. Phys. A: Math. Theor. 40, F879-F886 (2007)
63. J. Dajka, L. Machura, S. Rogozinski, J. Luczka, Magnetic flux in mesoscopic rings: quantum Smoluchowski regime, Phys. Rev. B 76, 045337 (2007)
64. J. Dajka, L. Machura, S. Rogozinski, J. Luczka Magnetic flux in mesoscopic rings: capacitance, inertia and kinetics, Acta Phys. Polon. B 38, 1737-1744 (2007)
65. M. Maska, J. Dajka, eds. Phys stat sol b Vol 244, "Electron Correlations in nano- and macrosystems" 30-th Int. Conf. of Theoretical Physics
66. M. Kurpas, J. Dajka, E. Zipper, Dephasing in nonsuperconducting mesoscopic rings, phys. stat. sol. (b) 244, No. 7, 2470 (2007)
67. J. Dajka, Ł. Machura, Sz. Rogoziński, J. Łuczka, Flux-biased mesoscopic rings, phys. stat. sol. (b) 244, No. 7, 2432 (2007)
68. E. Zipper, M. Kurpas, M. Szeląg, J. Dajka, M. Szopa, Flux qubits on nonsuperconducting mesoscopic rings, Phys. Rev. B 74, 125426 (2006)
69. M. Mierzejewski, J. Dajka, J. Łuczka, P. Talkner, P. Hanggi, Dynamic bimodality in monostable systems, Phys. Rev. E 74, 041102 (2006)
70. J. Dajka, A. Vourdas, S. Zhang, E. Zipper, The influence of entangled photons on distant persistent currents, J. Phys.:Condensed Matter, 18, 1367 (2006)
71. J. Łuczka, J. Dajka, M. Mierzejewski, P. Hanggi, Stochastic resonance nad resonant enhancement of magnetic flux in periodically driven mesoscopic cylinders, Acta Phys. Pol. B37, 1605 (2006)
72. J. Dajka, J. Łuczka, M. Mierzejewski, P. Hanggi, Noisy dynamics of magnetic flux in mesoscopic cylinders, J.Phys. Conf. Ser. 30, 321 (2006)
73. J. Dajka, E. Zipper, Properties of persistent currents in the presence of nonclassical electromagnetic fields, in “Symmetry, spectroscopy and SCHUR” eds. R.C. King, M. Bylicki, J. Karwowski, Nicolaus Kopernicus Univ. Press, Toruń (2006)
74. J. Dajka, E. Zipper, Persistent currents controlled by non-classical electromagnetic fields, Material Science Poland 24, 769 (2006)
75. J. Luczka, J. Dajka, M. Mierzejewski, P. Hanggi, Can self-sustaining currents be induced in mesoscopic rings? AIP Conf. Series vol 800, 197, American Institute of Physics, New York (2005)
76. J. Łuczka, J. Dajka, P. Hanggi, Magnetic flux in mesoscopic cylinders, Acta Phys. Pol. B36, 1693 (2005)
77. J. Dajka, J. Luczka, M.Szopa, P.Hanggi, Collective behaviour of coupled mesoscopic cylinders, phys. stat.sol b 242 196 (2005)
78. J. Dajka, M. Szopa, A. Vourdas, E. Zipper, The influence of non-classical electromagnetic fileds on persistent currents, phys. stat.sol b 242, 296 (2005)
79. J. Dajka, M. Szopa, A. Vourdas, E. Zipper, Persistent currents in the presence of nonclassical electromagnetic fields, Phys. Rev. B69, 045305 (2004)
80. J. Dajka, M. Szopa, Algebraization of spectral problems in the Bargmann-Fock representation, Int. J. Theor. Phys. 42, 1059 (2003).
81. J. Dajka, M. Szopa, Holonomy in quaternionic quantum mechanics, Int J. Theor. Phys. 42, 1053 (2003).
82. J. Dajka, J. Łuczka, M. Szopa, E. Zipper, Currents in a system of noisy mesoscopic rings, Phys. Rev. B67, 073305 (2003)
83. J. Dajka, J. Łuczka, M. Szopa, Stationary flux in mesoscopic noisy cylinders in "Symmmetry and structural properties of condensed matter" ets. T. Lulek et al. World Scientific 2003
84. J. Dajka, M. Kostur, J. Łuczka, M. Szopa, E. Zipper, Noise-assisted currents in a cylinder-like set of mesoscopic rings, Acta Phys. Pol. B34, 3793 (2003).
85. E. Zipper, J. Dajka, M. Szopa, Mutual inductance and selfinductance in mesoscopic systems, Acta Phys. Pol. A102, 419 (2002).