LIST OF PUBLICATIONS by Antoni Paja 1. "Angular dependence of magnetoresistance in thin Ni-Fe films", T. Stobiecki and A. Paja, Acta Phys. Pol. A41, 343 (1972) 2. "Green function method in the theory of ferromagnetism with applications", A. Paja, Zeszyty Naukowe AGH 331, 105 (1973) 3. "Badanie procesu przemagnesowania cienkich warstw magnetycznych za pomocą efektu magnetooporowego" („Investigation of the magnetization process of thin magnetic films by means of the magnetoresistance effect”), L. Kozłowski, T. Stobiecki, J. Spałek, A. Paja, A. Chrząstowski i H. Jankowski, Zeszyty Naukowe AGH 396, 244 (1973) 4. "Model of the magnetoresistance in ferro-ferromagnetic coupled films", J. Spałek and A. Paja, "Magnitnye plenki" - Trudy VI Mezhdunarodnogo kollokwiuma po tonkim magnitnym plenkam, Minsk 29-31.08.1973, Izdatelstvo Vysheishaya Shkola, Minsk 1974 5. "Magnetoresistance and angular dispersion of the magnetization in thin ferromagnetic films", T. Stobiecki, J. Spałek, A. Paja and A. Chrząstowski, "Magnitnye plenki" - Trudy VI Mezhdunarodnogo kollokwiuma po tonkim magnitnym plenkam, Minsk 29-31.08.1973, Izdatelstvo Vysheishaya Shkola, Minsk 1974 6. "Anizotropia magnetooporu cienkich warstw magnetycznych stopu Ni-Fe" („Anisotropy of magnetoresistance of thin magnetic films of the Ni-Fe alloy), A. Chrząstowski, A. Paja i T. Stobiecki, "Fizyka Cienkich Warstw" („Physics of Thin Films”) - I Ogólnopolskie Sympozjum, Szczyrk 19-25.10.1973, Państwowe Wydawnictwo Naukowe, Warszawa 1975 7. "Magnetoopór w układach dwuwarstwowych sprzężonych" („Magnetoresistance in twolayers coupled systems”), H. Jankowski, M. Lubecka, A. Paja, J. Spałek i T. Stobiecki, "Fizyka Cienkich Warstw" („Physics of Thin Films”) - I Ogólnopolskie Sympozjum, Szczyrk 19-25.10.1973, Państwowe Wydawnictwo Naukowe, Warszawa 1975 8. "Effect of ordering on the electrical conductivity in binary alloys", A. Paja, J. Phys. C: Solid State Phys. 9, 1445 (1976) 9. "The electrical conductivity of partially ordered FeCo alloy", A. Paja, "Physics of Transition Metals" - Inst. Phys. Conf. Ser. 39, 191, Bristol 1978 10. "Electrical and magnetic properties of the FeTi alloy near the order-disorder transition", A. Paja and K. Kułakowski, J. Phys. F: Metal Phys. 9, 1613 (1979) 11. "The effect of hybridization on the electrical conductivity of partially ordered transition metal alloys", A. Paja, "Physics of Transition Metals" - Inst. Phys. Conf. Ser. 55, 471, Bristol 1980 12. "The real-space renormalization transformation for a disordered Ising alloy", K. Kułakowski and A. Paja, Acta Phys. Pol. A60, 321 (1981) 13. "On the electrical conductivity of disordered alloys in the muffin-tin model", L. Schwartz and A. Paja, phys. stat. sol. (b) 118, 101 (1983) 14. "Electrical resistivity of amorphous Fe1-xBx alloys", A. Paja and T. Stobiecki, phys. stat. sol. (b) 125, K171 (1984) 15. “Hall effect in amorphous magnetic films”, T. Stobiecki, A. Paja and M. Przybylski, Proceedings of the 11th International Colloquium on Magnetic Films and Surfaces ICMFS11, Asilomar State Park, California, USA, 2-6 Sept. 1985 16. "Electrical resistivity of amorphous Fe1-xZrx alloys", A. Paja and T. Stobiecki, phys. stat. sol. (b) 134, 331 (1986) 17. "The theory of electric transport in amorphous metals", G. J. Morgan, M. A. Howson and A. Paja, Key Engineering Materials 13-15, 377 (1987) 18. "The temperature and magnetic field dependence of the resistivity of CaAl(Au) metallic glasses", M. A. Howson, A. Paja, G. J. Morgan and M. J. Walker, Z. Phys. Chem. (Neue Folge) 157, 693 (1988) 19. "Concentration and temperature dependence of the resistivity of amorphous Fe 1-xZrx alloys", A. Paja, phys. stat. sol. (b) 160, K123 (1990) 20. “Przewodnictwo elektryczne stopów amorficznych” („Electrical conductivity of amorphous alloys”), A. Paja (habilitation thesis), Zeszyty Naukowe AGH Nr 1435, Kraków 1991 21. “First-principles calculations of the magnetic properties of YMn2 and its hydrides”, M. Pajda, R. Ahuja, B. Johansson, J. M. Wills, H. Figiel, A. Paja and O. Eriksson, J. Phys.: Condens. Matter 8, 3373 (1996) 22. “Quantum interference effects, magnetoresistance and localisation in disordered systems”, A. Paja and G. J. Morgan, phys. stat. sol. (b) 206, 701 (1998) 23. "The resistivity of amorphous Fe1-xZrx alloys in the ferromagnetic region", A. Paja, T. Stobiecki, M. Oszajec and U. Krey, J. Magn. Magn. Mat. 186, 104 (1998) 24. “The effect of spin-orbit scattering on the electrical resistivity of disordered materials”, B. Spisak and A. Paja, Acta Phys. Pol. A 96, 751 (1999) 25. “Spin valve structures with weak and strong interlayer coupling”, F. Stobiecki, T. Stobiecki, B. Ocker, W. Maas, A. Paja, M. Czapkiewicz, C. Loch and K. Roll, Proceedings of the International Seminar on Physical Properties of Magnetic Materials, KIST (Korea) 2128.05.1999, p. 77 26. “Temperature dependence of magnetisation reversal and GMR in spin valve structures”, F. Stobiecki, T. Stobiecki, B. Ocker, W. Maas, W. Powroźnik, A. Paja, C. Loch and K. Roll, Proceedings of the European Conference “Physics of Magnetism ‘99”, Poznań 1999, Acta Phys. Pol. A 97, 523 (2000) 27. "Quasicritical behaviour of the NMR and SR relaxation in YMn2Dx", A. Paja, P. Mietniowski and H. Figiel, Proceedings of the European Conference “Physics of Magnetism ‘99”, Poznań 1999, Acta Phys. Pol. A 97, 867 (2000) 28. "A comment on the Kawabata theory of magnetoresistance in disordered systems", G. J. Morgan, A. Paja and B. Spisak, J. Non-Cryst. Solids 270, 269 (2000) 29. “Quasicritical behaviour of the nuclear magnetic resonance and muon spin-rotation relaxation in cubic ferromagnets and antiferromagnets”, A. Paja, H. Figiel, P. Mietniowski, J. Phys.: Condens. Matter 14, 9029 (2002) 30. “New approach to the spin-orbit scattering of electrons in disordered metallic systems”, B. J. Spisak and A. Paja, Proceedings of the 7th International School on Theoretical Physics, Myczkowce, Poland, 11-18 September 2002, World Scientific, New Jersey-London-Hong Kong-Singapore 2003 31. “Transport relaxation time of spin-polarized electrons”, A. Paja and B. J. Spisak, Acta Physica Polonica A 106, 69 (2004) 32. “Relaxation times of electrons in quasi-two-dimensional disordered systems”, B. J. Spisak and A. Paja, Molecular Physics Reports 40, 144 (2004) 33. “Influence of spin-orbit interaction on the electrical conductivity of three-dimensional disordered systems”, B. J. Spisak, A. Paja and G. J. Morgan, phys. stat. sol. (b) 242, 1460 (2005) 34. “Hydrogen in the Laves phase type intermetallic compounds of rare earths with manganese”, H. Figiel and A. Paja, Przemysł Chemiczny (Chemical Industry) 84/11, 863 (2005) 35. “Conductivities and transmission coefficients of ultra-thin disordered metallic films”, B. J. Spisak and A. Paja, Materials Science – Poland 24, 605 (2006) 36. “Electrical resistivity of disordered monolayer metallic films”, P. Jarguz and A. Paja, Materials Science – Poland 24, 633 (2006) 37. “Electronic density of states of YMn2Hx compounds”, S. Osuchowski, H. Figiel, A. Paja, J. Alloys Compd. 442, 368 (2007) 38. “Unit cell expansion in Laves phase-type compounds caused by interstitial hydrogen”, H. Figiel, S. Osuchowski, and A. Paja, phys. stat. sol. (a) 204, 3286 (2007) 39. “Electron transport and spin scattering in very thin disordered metallic films”, A. Paja and B. J. Spisak, Acta Phys. Pol. A112, 1289 (2007) 40. „Electrical resistivity of liquid Mg–Al, Na–Cs, Ni–Ce, Li–Cd and Mg–Cd alloys within the ‘2kF’ scattering model”, M. Ornat and A. Paja, J. Phys.: Condens. Matter 20, 375102 (2008) 41. “Conductivity of a disordered ferromagnetic monoatomic film”, A. Paja, B. J. Spisak, Materials Science-Poland 26, 1009 (2008) 42. “Spin-dependent transport through metallic system with magnetic impurities”, B. J. Spisak, M. Wołoszyn and A. Paja, Acta Phys. Pol. A115, 266 (2009) 43. “Electron transport in disordered metallic nanosystems”, A. Paja, Proceedings of the 10th Summer School on Theoretical Physics “SYMMETRY AND STRUCTURAL PROPERTIES OF CONDENSED MATTER”, Myczkowce, Poland, 2-9 September 2009, J. Phys. Conf. Series 213, 012027 (2010) 44. “Electrical resistivity of liquid binary and ternary alloys”, M. Ornat · A. Paja, Applied Physics A: 102, 379 (2011) 45. “Electrical Resistivity of the Monoatomic Metallic Layer”, A. Paja and A. Działo, Acta Phys. Pol. A123, 770 (2013) 46. „Quantum Model for Metal-Insulator Transition in Amorphous GdxSi1-x”, A. Paja and M. Ornat, Acta Phys. Pol. A124, 717 (2013) 47. „Size Effects on the Electrical Resistivity of the Ultra-Thin Metallic Film”, A. Paja and A. Działo, Acta Phys. Pol. A125, 1220 (2014) Last update: 23 June 2014