Publications of Elżbieta Zipper

 

  1. A. Biborski, A. P. Kądzielawa, A. Gorczyca-Goraj, E. Zipper, M. M. Maśka, J. Spałek, "Dot-ring nanostructure: Rigorous analysis of many-electron effects",Scientific Reports 6, 29887 (2016)  arXiv:1605.01195.
  2. I. Janus-Zygmunt, B. Kedzierska, A. Gorczyca-Goraj, E. Zipper and M. M. Maska, "Quantum dot-ring nanostructure - A comparison of different approaches", Int. J. Mod. Phys. B 30, 1642013 (2016)
  3. M. Kurpas, B. Kędzierska, I. Janus-Zygmunt, A. Gorczyca-Goraj, E. Wach, E. Zipper and M. M Maśka, Charge transport through a semiconductor quantum dot-ring nanostructure, J. Phys.: Condens. Matter 27 (2015) 265801
  4. I. Janus-Zygmunt, B. Kędzierska, A. Gorczyca-Goraj, M. Kurpas, M.M. Maśka, E. Zipper, Application of the dot-ring nanostructure to control electrical transport in the Coulomb blockade regime, Acta Phys. Polon. A 126, 1171 (2014).
  5. M. Kurpas, B. Kędzierska, I. Janus-Zygmunt, M. M. Maśka, and E. Zipper, Electrical control of spin relaxation time in complex quantum nanostructures, arXiv:1312.6544 Acta Phys. Polon. A 126 A-20 (2014)
  6. M. Kurpas, E. Zipper, M. M. Maśka, Engineering of electron states and spin relaxation in quantum rings and quantum dot–ring nanostructures,"Physics of Quantum Rings", (2013) Springer Ed. V. Fomin
  7. E. Zipper, M. Kurpas, M. M. Maska Wave function engineering in quantum dot-ring nanostructures, New J. Phys. 14, 093029 (2012) arXiv:1203.1025v1
  8. M. Kurpas, E. Zipper, M. M. Maśka, Engineering of electron states and spin relaxation in quantum rings and quantum dot–ring nanostructures,"Physics of Quantum Rings", Springer (w druku)
  9. E. Zipper, M. Kurpas, J. Sadowski and M.M. Maśka, Spin relaxation in semiconductor quantum rings and dots - a comparative study, J. of Phys. Condens. Matter 23 115302 (2011)
  10. Semiconductor quantum ring as a solid state spin qubit, E. Zipper, M. Kurpas, J. Sadowski, M. M. Maśka, arXiv:1011.2540 (2011)
  11. Flux qubit on semiconducting quantum ring, M. Szopa, E. Zipper, Journ. of Phys. Conference Series 213, 012006 (2010)
  12. Entanglement of matter qubits at a distance, E. Zipper, M. Kurpas, J. Comput. Theor. Nanosci. 7, 1642 (2010)
  13. Entanglement of qubits via a nonlinear resonator, M. Kurpas, J. Dajka, and E. Zipper, J. of Phys.:Condens. Matter 21 235602 (2009)
  14. Entanglement of flux qubits through joint detection of photons M. Kurpas, E. Zipper, Physica Stat. Solid. (b) 246, 961 (2009)
  15. Entanglement swapping between electromagnetic field modes and matter qubits, M. Kurpas, E. Zipper, Eur. Phys. J. D 50, 201 (2008)
  16. The small is great or about the nanosystems, E. Zipper (editor J. Warczewski), PWN Warszawa 2008
  17. Heat currents in non-superconducting flux qubits, M. Szeląg, J. Dajka, E. Zipper and J. Łuczka , Acta Phys. Pol. A 39, 1177 (2008)
  18. Entanglement of distant flux qubits mediated by non-classical electromagnetic field, E. Zipper, M. Kurpas, J. Dajka and M. Kuś, J. Phys: Condensed Matter, 20, 275219 (2008)
  19. Coherent coupling of two semiconducting flux qubits, M. Kurpas, J. Dajka and E. Zipper, Journal of Physics C 104, 012004 (2008)
  20. Decoherence in flux qubits on mesoscopic nonsuperconducting rings, M. Kurpas, J. Dajka and E. Zipper, Physica Status Solidi (b) 244, 7, 2470-2475 (2007)
  21. Similarities and differences of persistent currents in superconducting rings and normal mesoscopic cylinders, M. Czechowska, M. Kurpas, K.Czajka, E. Zipper, Supercond. Sci. Technol. 20, 44 (2007)
  22. Niezwykłe własności nanorurek węglowch, E. Zipper, Postępy Fizyki 57, 114 (2006)
  23. Symmetric and asymmetric dispersion relation in graphene, M. Marganska, M. Szopa, E. Zipper, Journ. of Physics 30, 302 (2006)
  24. Flux qubit on a mesoscopic nonsuperconducting ring, E. Zipper, M. Kurpas, M. Szel?g, J. Dajka, M. Szopa, Phys. Rev. B 74, 125426 (2006)
  25. Coherent quantum dynamics of mesoscopic metallic ring with a barrier, M. Szopa, E. Zipper, M. Szel?g, M. Kurpas, Journal of Physics 30, 224 (2006)
  26. The influence of entangled photons on distant persistent currents, J. Dajka, A. Vourdas, S. Zhang, E. Zipper, J. Phys. Condens. Matter 18 (2006) 1367.
  27. Aharonov-Bohm effect in carbon nanotubes and tori, M. Marga?ska, M. Szopa, E. Zipper, Phys. Stat. Sol. (b) 242 (2005) 285.
  28. The influence of entangled photons on distant persistent currents, J. Dajka, A. Vourdas, S. Zhang, E. Zipper, J. Phys: Condensed Matter, 18, 1367 (2006)
  29. Orbital magnetic moments in pure and doped carbon nanotubes, M. Marga?ska, M. M Szopa, E. Zipper, Phys. Rev. B 72, 115406 (2005)
  30. M. Marga?ska, M. Szopa, E. Zipper, Aharonov-Bohm effect in carbon nanotubes and tori, Phys. Stat. Sol. (b) 242 (2005) 285.
  31. The influence of nonclassical electromagnetic fields on the properties of persistent currents, J. Dajka, M. Szopa, A. Vourdas, E.Zipper, Phys. Stat. Sol. (b) 242 (2005) 296.
  32. Collective phenomena in multiwall carbon nanotubes, M. Marga?ska, M. Szopa, E. Zipper, Acta Phys. Pol. A106 (2004) 609.
  33. Coherence of persistent currents in multiwall carbon nanotubes, M. Szopa, M. Margańska, E. Zipper and M. Lisowski Phys. Rev. B70 (2004) 075406.
  34. Persistent currents in the presence of non-classical electromagnetic fields, J. Dajka, M. Szopa, A. Vourdas, E. Zipper, Phys. Rev. B69 (2004) 045305.
  35. Nondissipative orbital currents in finite quantum systems – a comparative study, M. Czechowska, M. Szopa, E. Zipper, Int. J. of Theor. Phys. 42 (5) (2003) 1107.
  36. Possibility of flux expulsion and flux trapping in thick mesoscopic cylinders, M. Czechowska, M. Lisowski, M. Szopa, E. Zipper, Phys. Rev. B68 (2003) 035320.
  37. Fascinating properties of carbon nanotubes, M. Czechowska, M. Lisowski, M. Marga?ska, M. Szopa, E. Zipper, w Symmetry and Structural Properties of Condensed Matter, Proceedings of the 7th Int. School on Theoretical Physics, T. Lulek, B. Lulek i A.
  38. Geometry and topology induced electronical properties of graphene derived quantum systems, M. Szopa, M. Marga?ska, E. Zipper, Int. J. of Theor. Phys. 42(5) (2003).
  39. Currents in a system of noisy mesoscopic rings, J. Dajka, J. Łuczka, M. Szopa, E. Zipper, Phys. Rev. B67 (2003) .
  40. Noise-assisted currents in a cylinder-like set of mesoscopic rings, J. Dajka, M. Kostur, J. Łuczka, M. Szopa, E. Zipper, Acta Phys. Pol. B 34 (2003) 3793.
  41. Persistent Currents in Carbon Nanotubes, M. Szopa, M. Marga?ska, E. Zipper, Phys. Lett. A299 (2002) 593.
  42. Mutual Inductance and Selfinductance in Mesoscopic Systems, E. Zipper, J. Dajka, M. Szopa, Acta Phys. Pol. A102 (2002) 419.
  43. Magnetic Susceptibilities in Mesoscopic Cylinders M. Lisowski, E. Zipper, Acta Phys. Pol. B32 (2001) 451.
  44. Paramagnetic Reentrant Effect in Mesoscopic Cylinders Made of a Normal Metal in Proximity with a Superconductor, M. Lisowski, E. Zipper, Phys. Rev. Lett. 86 (2001) 1602.
  45. Coherent Phenomena in Mesoscopic Systems, E. Zipper, M. Lisowski, Superconductor Science and Technology, 13 (2000) 1191.
  46. Coherence in superconductors and nanostructures, eds. R. Micnas, E. Zipper, O?rodek Wydawnictw Naukowych PAN Pozna?, 1999. (druk zwarty)
  47. Orbital Paramagnetic Response in Mesoscopic Cylinders in Proximity with a Superconductor, M. Stebelski, E. Zipper, Mol. Phys. Rep. 24 (1999), 105.
  48. Possibility of Long-Range Order in Clean Mesoscopic Cylinders", M. Lisowski, E. Zipper, M. Stebelski, Physical Review B 59 (1999), 8305.
  49. Orbital Magnetic Ordering in Disordered Mesoscopic System, M. Lisowski, E. Zipper, Jour. Magn. Magn. Mat. 189 (1998), 225.
  50. The Two-fluid Description of a Mesoscopic Cylinder, M. Stebelski, M. Lisowski, E. Zipper, Europ. Phys. Journal B 1 (1998), 215.
  51. Medical Physics Studies, Z. Drzazga, E. Zipper, Conference Proceedings, Szczyrk, 1997.
  52. Electromagnetic Properties of Mesoscopic Cylinder, E. Zipper, M. Stebelski, M. Lisowski, Acta Phys. Pol. A92 (1997), 1087.
  53. Spontaneous Flux in Mesoscopic Systems, M. Stebelski, M. Szopa, E. Zipper, Molecular Phys. Rep. 17 (1997), 215.
  54. Equilibrium Currents in Mesoscopic Systems, M. Lisowski, E. Zipper, R. Kosimow, Molecular Phys. Rep. 17 (1997), 137.
  55. Coherence of Currents in Mesoscopic Cylinders, M. Stebelski, M. Szopa, E. Zipper, Z. Phys. B 103 (1997), 79.
  56. Orbital Magnetization in Finite Systems, E. Zipper, in Solid State Physics: Fundamentals and Applications, G. Barbarian (ed.) Ac. of Sciences, Kiev 1996.
  57. Coherent Phenomena in Mesoscopic Cylinders in: "Electron Localization and Quantum Transport in Solids", E. Zipper, World Scientific 1996.
  58. Interacting electrons in low dimensional systems eds. R. Micnas, E. Zipper, O?rodek Wydawnictw Naukowych PAN Pozna?, 1995. (druk zwarty)
  59. Orbital Magnetic Interaction in Metals of Mesoscopic Size, E. Zipper, M. Szopa, Molecular Physics Reports 12 (1995) 153.
  60. Spontaneous, Persistent Currents in Mesoscopic Rings, E. Zipper and M. Szopa, Acta Phys. Pol. A87 (1995), 79.
  61. Spontaneous Flux and Flux Trapped in Mesoscopic Cylinders, M. Szopa and E. Zipper, Int. J. of Modern Phys. B9, (1995) 161.
  62. On the possibility of an Ordered Ground State in Mesoscopic Systems, Acta Phys. Pol. A84, /1993/, 203.
  63. Topological Origin of the Half Integral Flux Quantization in Superconductors, K.A. Meissner, M. Szopa and E. Zipper, Strongly Correlated Electron Systems, ed. J. Aksamit and M. Matlak, Univ. of Silesia 1993, 73-80.
  64. Spontaneous Currents in Mesoscopic Rings, D. Wohlleben, P. Freche, M. Esser, E. Zipper and M. Szopa, Mod. Phys. Lett. B 6, /1992/, 1481.
  65. Flux Phase States in Quasi One Dimensional Systems, E.Zipper, M.Szopa, D.Wohlleben, Physics and Material Science of High Temperature Superconductors II NATO ASI Series E181, ed.R.Kossowski,B.Raveau,S.Patapis, Kluver Acad Publ
  66. Strongly correlated electron systems and high-Tc Superconductivity, eds. E. Zipper, R. Ma?ka, M. Ma?ka, World Scientific 1991. (druk zwarty)
  67. Phase Coherent Transport in Nanostructures, E. Zipper, in Magnetic Correlations in Finite Systems, World Scientific, C.Vessen, A. Fischer, (eds.), (1991) 128.
  68. Flux Phase States in Mesoscopic Systems, M.Szopa, D.Wohlleben, E.Zipper, Physics Letters A 160 (1991) 271-3.
  69. Flux trapping and flux quantization in mesoscopic systems, in "Strongly correlated electron systems and High - T Superconductivity", ed.E.Zipper, R.Ma?ka and M.Ma?ka, World Scientific 1991.
  70. Magnetic correlations in small systems in "Strongly correlated electron systems and High - T Superconductivity", M.Szopa, D.Wohlleben and E.Zipper, ed. E.Zipper, R.Ma?ka and M.Ma?ka, World Scientific 1991.
  71. Spontane Strome in Mesoskopischen Ringen, D.Wohlleben, M.Esser, P.Freche, E.Zipper and M.Szopa, DPG Verhandlungen, 8, /1991/, 1517.
  72. Possibility of Orbital Magnetic Phase Transitions in Mesoscopic Metallic Rings, D. Wohlleben, M. Esser, E. Zipper and M. Szopa, Phys. Rev. Lett. 66, /1991/, 3191.
  73. Persistent currents induced in small metallic rings, M. Szopa and E. Zipper, Solid St. Comm. 77, /1991/, 739.
  74. Persistent currents in mesoscopic rings, M.Szopa and E. Zipper, Physics and Material Science in High Temperature Superconductors NATO ASI Series E 181 eds. R. Kossowski, S. Methfessel and D. Wohlleben , Kluwer Acad. P
  75. Antisymmetric hybridization in mixed valence compounds, M. Drzazga and E. Zipper, Zeszyty Naukowe UJ, 29, /1990/, 62.
  76. Geometric selection rules for valence fluctuations, T. Lulek, M. Szopa and E. Zipper, Zeszyty naukowe UJ 29, /1990/ 49.
  77. Resistivity anomalies due to charge fluctuations of Ce and Pr impurities, A. ?lebarski, E. Zipper and M. Drzazga, JMMM, 76-77 /1988/ 249.
  78. The influence of Antisymmetric Hybridization on Gap Formation in MV Compounds, M. Drzazga and E. Zipper, Solid St. Comm. 68, /1988/ 605.
  79. Form of the hybridization matrix mixing the localized and itine- rant electron states in periodic systems, M. Drzazga, E. Zipper, Solid St. Comm. 65, 87, /1988/.
  80. Canonical Transformation for Mixed Valence Compounds, E. Zipper, M. Drzazga, Acta Magnetica, Supplement 87, 418.
  81. Resistivity anomalies due to charge fluctuations, E. Zipper, M. Drzazga and A. Freimuth, Journ. of Magn. Magn. Mat. 71, 119, /1987/.
  82. Structure and properties of the electronic states in the spin-less intermediate valence model, M. Drzazga, A. Pawlikowski and E. Zipper, Acta Phys. Polon. A72 /1987/, 765.
  83. Group theoretical selection rules for f-c hybridization, M. Drzazga, A. Pawlikowski, M. Szopa and E. Zipper, J. Magn. Magn. Mat. 63 64 /1987/, 227.
  84. On the concept of fluctuation temperature in mixed valence (MV) systems, M. Drzazga, A. Pawlikowski, E. Zipper, Journ. of Magn. Magn. Mat. 47 48 /1985/, 380.
  85. The influence of 3d impurities on ESR and magnetic properties of GdAl2 K. Kaczmarska, E. Kwapuli?ska, A. Ślebarski, E. Zipper and A. Chełkowski, Acta Magnetica, Supplement 84, 207, /1985/.
  86. The influence of Ni impurities on the magnetic properties and ESR in Gd/Al1-xNix/2 , K. Kaczmarska, E. Kwapuli?ska, A. Ślebarski, E. Zipper and A. Chełkowski, J. of Magn. Magn. Mat. 50, /1985/, 101.
  87. ESR in GdxRe1-x Al2/Re = La, Lu, Y/ - The experimental and theoretical studies, E. Zipper, K. Kaczmarska, E. Kwapulińska and J. Pichet, Journ. of Magn. Magn. Mat. 40, 259, /1984/.
  88. Theoretical and experimental analysis of Re1-x GdxAl2/Re = La, Lu, Y/ magnetic properties, A. Ślebarski, E. Zipper, J. Auleytner, J. Phys. F. Met. Phys. 13. 2643 /1983/.
  89. Theoretical analysis of ESR measurements in /GdxY1-x /Cu, E. Zipper, Journ. of Magn. Magn. Mat. 36, 165 /1983/.
  90. ESR g shift in concentrated Gd Alloys, E. Zipper, J. Phys. F. 12, 3123 /1982/.
  91. Theoretical calculations of the Curie temperature for - Gd1-xRexAl2 /Re = Dy, Ho, Er/ intermetallic compouds, K. Bia?as-Borgiel, W. Borgiel, E. Zipper, Acta Phys. Pol. 60, 607 /1981/.
  92. The effect of paramagnetic impurities on EPR line width in KMnF - the experimental and theoretical studies, K. Bia?as-Borgie?, D. Skrzypek and E. Zipper, J. Phys. C. 1, 6251 /1980/.
  93. On the magnon bottleneck and magnon avalanche effects in nuclear spin-lattice relaxation, K. Bia?as-Borgie?, M. Sojka and E. Zipper, Physica 96 B, 207 /1979/.
  94. The theory of Nuclear Magnetic Resonance in Ferromagnets, K. Bialas-Borgiel, A. Pawlikowski and E. Zipper, Physica 82 B, 271 /1976/.
  95. Nuclear Magnetic Resonance in homogeneous and multidomain ferromagnets, K. Bialas-Borgiel and E. Zipper, Proceedings of the Conference on Magnetism, Poznan 1975.
  96. The equations for spin temperatures in ordered phase in ferromagnets, K. Bialas-Borgiel and E. Zipper, Proceedings of the Conference on Magnetism, Pozna? 1975.
  97. Projection Operators and kinetic equations, K. Bialas-Borgiel, A. Pawlikowski, E. Zipper, Proceedings of the Conference on Statistical Physics, Leipzig 1974, Physikalische Gesellschaft der DDR, Fachverband Festkorper-physik.
  98. Nonequilibrium Statistical Operator and generalized kinetic equations, K. Bia?as-Borgie?, A. Pawlikowski, E. Zipper, Phys. Lett. A49, 225 /1974/.
  99. Modified Bloch equations for an isotropic ferromagnet., K. Bialas-Borgiel and E. Zipper,Acta Phys. Pol. A 43, 255 /1973/.