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Publications

Papers are partially available on this site and on the arXiv. CSULB students & alumni co-author names are underlined.

Reviews & Book Chapters

  1. Electronic Phase Separation and Electron-Phonon Coupling in Cuprate Superconductors.
    A. Bill, V, Hizhnyakov, and G. Seibold
    in High-Tc Copper Oxide Superconductors and Related Novel Materials, edited by A. Bussmann-Holder, H. Keller & A. Bianconi (Springer-Verlag, Frankfurt, 2017) P. 1.
    Dedicated to Prof. Karl Alex Mueller on the Occasion of his 90th Birthday.
  2. Electronic Inhomogeneities and Pairing from Unscreened Interactions in High-Tc Superconductors.
    A. Bill, V, Hizhnyakov, G. Seibold, and E. Sigmund
    in High-Tc Superconductors and related Transition Metal Oxides, edited by A. Bussmann-Holder & H. Keller (Springer-Verlag, Frankfurt, 2007) P. 143.
    Special Contributions in Honor of K. Alex Mueller on the Occasion of his 80th Birthday.
  3. Properties of Magnetic Multilayers
    A. Bill
    Lecture given at the 1st PSI Summer School in Condensed Matter Research on Magnetism, August 2002.
  4. The Isotope Effects in Superconductors.
    A. Bill, V.Z. Kresin, and S.A. Wolf
    Review article in Pair Correlations in Many Fermion Systems, edited by V.Z. Kresin, (Plenum Press, New York, 1998) p. 25; arXiv:9801222.


  5. Papers

  6. Phase separation and pairing fluctuations in oxide materials
    A. Bill, V. Hizhnyakov, R.K. Kremer, G. Seibold, A. Shelkan and A. Sherman
    Condens. Matter 5, 65 (2020), arXiv:2010.15895.
  7. Phase separation and proximity effects in itinerant ferromagnet-superconductor heterostructures
    C. Martens, A. Bill, and G.Seibold
    Phys. Rev. B 98, 174513 (2018), arXiv:1807.10387.
  8. The role of canting and depleted-triplet minima in superconducting spin valve structures.
    T.E. Baker, and A. Bill
    Phys. Rev. B 97, 214520 (2018), arXiv:1802.08196.
  9. Classification of magnetic inhomogeneities and 0-π transitions in superconducting-magnetic hybrid structures.
    T.E. Baker, A. Richie-Halford, and A. Bill
    Phys. Rev. B 94, 104518 (2016), arXiv:1606.05567.
  10. Effects from Magnetic Boundary Conditions in Superconducting-Magnetic Proximity Systems.
    T.E. Baker, and A. Bill
    AIP Advances, 6, 055811 (2016).
  11. Cascading Proximity Effects in Rotating Magnetizations.
    T.E. Baker, A. Richie-Halford, O.E. Icreverzi, and A. Bill
    Europhys. Lett. 107, 17001 (2014), arXiv:1403.4149.
  12. Long Range Triplet Josephson Current and 0- Π Transition in Tunable Domain Walls.
    T.E. Baker, A. Richie-Halford, and A. Bill
    New J. Phys. 16, 093048 (2014), arXiv:1310.6580.
  13. Non-Equilibrium Grain Size Distribution with Generalized Growth and Nucleation Rates.
    K.L. Lokovic, R.B. Bergmann, and A. Bill
    J. Mat. Res. 28, 1407 (2013), doi: 10.1557/jmr.2013.131, arXiv:1310.6632.
  14. Properties of Magnetic-Superconducting Proximity Systems.
    J. de Rojas, T.E. Baker, A. Richie-Halford, and A. Bill
    J. of Supercond. Nov. Magn. 25, 2177 (2012), doi: 10.1007/s10948-012-1659-1.
  15. Classical Mechanical Analogies in Wide Dirty SFS Junctions.
    T.E. Baker, O.E. Icreverzi, A. Richie-Halford, and A. Bill
    J. of Supercond. Nov. Magn. 25, 2183 (2012), doi: 10.1007/s10948-012-1646-6.
  16. Jacobi Elliptic Functions and the Complete Solution to the Bead on the Hoop Problem.
    T.E. Baker and A. Bill
    Am. J. Phys. 80, 506 (2012), arXiv:1201.4201v1.
  17. Development of the Grain Size Distribution During the Crystallization of an Amorphous Solid.
    A. Bill and R.B. Bergmann
    Mater. Res. Soc. Symp. Proc. 1308, dd03-01 (2011).
    Invited paper at the Symposium Artificially Induced Crystalline Alignment in Thin Films and Nanostructures.
  18. Time Evolution of Grain Size Distributions in Random Nucleation and Growth Crystallization Processes.
    A.V. Teran, R.B. Bergmann, and A. Bill
    Phys. Rev. B 81, 075319 (2010), arXiv:1003.0143.
    One figure was selected for the Front Page of Phys.Rev.B (Kaleidoscope) website, February 2010.
  19. The Grain Size Distribution in Crystallization Processes with Anisotropic Growth Rate
    K.S. Lokovic, R.B. Bergmann and A. Bill
    Mater. Res. Soc. Symp. Proc. 1245, A16-7 (2010).
  20. Modeling the Grain Size Distribution during Solid Phase Crystallization of Silicon.
    A.V. Teran, R.B. Bergmann and A. Bill
    Mater. Res. Soc. Symp. Proc. 1153, A05-3 (2009).
  21. On the Origin of Logarithmic-Normal Distributions: An Analytical Derivation, and its Application to Nucleation and Growth Processes.
    R.B. Bergmann and A. Bill
    J. Crsyt. Growth 310, 3135 (2008), arXiv:0807.0396.
  22. Universal high energy anomaly in the electron spectrum of high temperature superconductors by angleresolved photoemission spectroscopy.
    J. Graf, G.-H. Gweon, K. McElroy, S. Y. Zhou, C. Jozwiak, E. Rotenberg, A. Bill, T. Sasagawa, H. Eisaki, S. Uchida, H. Takagi, D.-H. Lee, and A. Lanzara
    Phys. Rev. Lett. 98, 067004 (2007), arXiv:0607319.
  23. Self-Supported Superconductivity in Layered Metallochloronitrides.
    V.Z. Kresin, A. Bill and H. Morawitz
    in New Challenges in Superconductivity: Experimental Advances and Emerging Theories, Edited by J. Ashkenazi et al. (Springer-Verlag, 2005) p. 213.
  24. Influence of higher d-wave gap harmonics on the dynamical magnetic susceptibility of high-temperature superconductors.
    A. Schnyder, A. Bill, C. Mudry, R. Gilardi, H. Ronnow, and J. Mesot
    Phys. Rev. B 70, 214511 (2004); arXiv:0405607.
  25. Magnetic Properties of Exchange Springs.
    A. Bill and H.B. Braun
    J. Mag. Mag. Mat. 272-276, 1266 (2004).
  26. Metallochloronitrides: Electronic Pairing Mechanism in a New Class of Superconductors.
    A. Bill, H. Morawitz, and V.Z. Kresin
    Physica C 408-410, 238 (2004).
  27. Metallochloronitrides: a New Class of Superconductors.
    A. Bill, H. Morawitz, and V.Z. Kresin
    Int. J. Mod. Phys. B 17, 3281 (2003).
  28. Electronic Collective Modes in Layered Superconductors.
    A. Bill, H. Morawitz, and V.Z. Kresin
    Phys. Rev. B, 68 144519 (2003); arXiv:0305293.
  29. Crystal Structures and Electronic Spectrum of Haloform-intercalated C60 Materials.
    R. Windiks, A. Bill, B. Delley, and V.Z. Kresin
    Phys. Rev. B, 66, 195418 (2002), arXiv:0207120.
    Selected for Dec. 9th issue of the Virtual Journal of Nanoscale Science & Technology, vol. 6 (2002).
  30. Exchange Coupling in Fe/NiO/Co Film Studied by Soft X-Ray Resonant Magnetic Reflectivity.
    O. Zaharko, P. Oppener, M. Horisberger, H.Ch. Mertins, D. Abramsohn, H. Grimmer, F. Sch¨afers, A. Bill, H.B. Braun
    Phys. Rev. B 66, 134406 (2002)
  31. Dynamical Screening and Superconducting State of Intercalated Layered Metallochloronitrides.
    A. Bill, H. Morawitz, and V.Z. Kresin
    Phys. Rev. B 66, 100501(R) (2002); arXiv:0204580
  32. Dynamical Screening and Electron-Mediated Superconductivity in Intercalated Layered Metallochloronitrides.
    A. Bill, H. Morawitz, and V.Z. Kresin
    J. Supercond. 15 483 (2002).
  33. Intercalation and Superconductivity in Molecular Crystals.
    A. Bill, V.Z. Kresin
    J. Supercond. 15 489 (2002).
  34. High-Temperature Superconductivity in Intercalated Molecular C60·2CHX3 (X=Cl,Br,I)
    A. Bill, R. Windiks, B. Delley, and V.Z. Kresin
    Int. J. Mod. Phys. B, 16, 1533 (2002).
  35. Intercalation and High Temperature Superconductivity in Fullerides
    A. Bill, V.Z. Kresin
    Eur. Phys. J. B 26, 3(R) (2002); arXiv:0109553,0110327.
  36. Low-Energy Collective Modes and Superconductivity in Layered Systems.
    A. Bill, H. Morawitz, and V.Z. Kresin
    J. Supercond. 13, 907 (2000).
  37. Acoustic Plasmons in Layered Systems and the Phonon-Plasmon Mechanism of Superconductivity.
    A. Bill, H. Morawitz, and V.Z. Kresin
    J. of Low Temp. Phys. 117, 283 (1999).
  38. Plasmons in Layered Superconductors.
    A. Bill, H. Morawitz, and V.Z. Kresin
    Physica B 284-288, 433 (1999).
  39. Isotope Effect for the Penetration Depth in Superconductors.
    A. Bill, V.Z. Kresin, and S.A. Wolf
    Phys. Rev. B 57, 10814 (1998), arXiv:9801186.
  40. Effect of Magnetic Impurity Correlations on Josephson Tunneling.
    A. Bill, S.A. Wolf, Yu. Ovchinnikov, and V.Z. Kresin
    Physica C 298, 231 (1998), arXiv:9801189.
  41. Unconventional Isotope Effects in Superconductors.
    V.Z. Kresin, A. Bill, S.W. Wolf, and Yu. Ovchinnikov
    Phys. Rev. B. 56, 107 (1997).
  42. Electronic Inhomogeneities, Electron-Lattice and Pairing Interactions in High-Tc Superconductors.
    A. Bill, V. Hizhnyakov, D. Nevedrov, G. Seibold, and E. Sigmund
    Z. Phys. B 104, 753 (1997).
  43. Isotope Effect in High-Tc Materials: Role of Non-Adiabaticity and Magnetic Impurities.
    A. Bill, V.Z. Kresin, and S.A. Wolf
    Z. Phys. B 104, 759 (1997).
  44. Magnetic Scattering, 'Recovery' of Superconductivity and Tunneling in Cuprates.
    V.Z. Kresin, S.W. Wolf, Yu. Ovchinnikov, A. Bill, S. Adrian, O. Dolgov, and S. Shulga
    J. of Low Temp. Phys. 106, 159 (1997).
  45. Magnetic Scattering in the Cuprates: Upper Limit of Tc, Novel Isotope Effects.
    V.Z. Kresin, A. Bill, S.W. Wolf, and Yu. Ovchinnikov
    J. Supercond. 10, 267 (1997).
  46. Anisotropy of the Superconducting Gap in the Presence of Electron-Phonon and Coulomb Interactions.
    E. Sigmund, V. Hizhnyakov, D. Nevedrov, and A. Bill
    J. Supercond. 10, 441 (1997).
  47. Isotope Effect in High-Tc Superconductors due to Non-Adiabaticity, Proximity Effect and Magnetic Impurities.
    A. Bill, and V.Z. Kresin
    Z. Phys. Chem. 201, 271 (1997).
  48. Unscreened Long Range Interactions, Gap Anisotropy and Phonon Renormalization in High Temperature Superconductors.
    E. Sigmund, V. Hizhnyakov, D. Nevedrov, and A. Bill
    Z. Phys. Chem. 201, 245 (1997).
  49. q-Dependent Phonon Renormalization: A Signature of the Gap Anisotropy in High-Tc Superconductors.
    A. Bill, V. Hizhnyakov, and E. Sigmund
    J. Supercond. 9, 493 (1996).
  50. Neutron Scattering and Gap Anisotropy in High-Tc Superconductors.
    A. Bill, V. Hizhnyakov, and E. Sigmund
    in Proceedings of the 10th AnniversaryWorkshop on High-Tc Superconductors edited by B. Batlogg, C.W. Chu, W.K. Chu, D.U. Gubser, K.A. M¨uller (World Scientific, 1996), p. 585.
  51. Anisotropic Pairing Caused by Unscreened Long Range Interactions.
    V. Hizhnyakov, A. Bill, and E. Sigmund
    in [36], p. 549.
  52. Phonon Renormalization and Symmetry of the Superconducting Order Parameter.
    A. Bill, V. Hizhnyakov, and E. Sigmund
    Phys. Rev. B 52, 7637 (1995).
  53. Non-retarded Pairing Interaction and Phonon Renormalization below Tc favored by Phase Separation.
    A. Bill, V. Hizhnyakov, and E. Sigmund
    in Phase Separation in Cuprate Superconductors, vol. II, edited by E. Sigmund, K.A. Müller (Springer- Verlag, 1994), p. 290.
  54. Electron-lattice Interaction, Gap Anisotropy and Phonon Renormalization.
    A. Bill, V. Hizhnyakov, and E. Sigmund
    Proc. of the Estonian Acad. Sci., Physics, Mathematics 44, 252 (1995).
  55. Symmetry of the Gap Deduced from the Phonon Renormalization.
    A. Bill, V. Hizhnyakov, and E. Sigmund
    in Anharmonic Properties of High-Tc Cuprates, edited by D. Mihailovic, G. Ruani, E. Kaldis, and K.A.Müller (World Scientific, 1995) p. 261.
  56. Pairing Interaction and Gap Anisotropy.
    E. Sigmund, A. Bill, and V. Hizhnyakov
    p. 187, in [41].
  57. Phonon Renormalization and gap anisotropy.
    A. Bill, V. Hizhnyakov, and E. Sigmund
    Physica C 235-240, 2137 (1994).
  58. Cooper Pair Formation by Distortive Electron-Lattice Coupling.
    V. Hizhnyakov, E. Sigmund, and A. Bill
    in Phase Separation in Cuprate Superconductors, vol. I, edited by K. A. Müller, G. Benedek (World Scientific, Singapore, 1993).