Leszek Stolarczyk

Ph.D., D.Sc.

E-mail Phone+48 22 5526387 Room537 AddressL. Pasteura 1 St.
02-093 Warsaw
Poland

Table of contents

Warsaw, February 22, 2012

Curriculum Vitae

  • Born May 7, 1951, in Warsaw.
  • M.Sc. (Chemistry) 1974 (Univesity of Warsaw),
  • Ph.D. (Chemistry) 1982 (Univesity of Warsaw),
  • D.Sc. (Theoretical Chemistry) 1995 (Univesity of Warsaw).

Scientific interests:

  • Theory of many-electron systems: the quasiparticle model based on the Fock-space coupled-cluster method.
  • Theory of extended periodic systems: molecular crystals, polymers, also one-dimensional metals and superconductors.
  • Theory of pi-electron systems, theory of alternant systems.

Teaching:

  • General chemistry (proseminars)
  • Quantum chemistry (lecture and proseminars)
  • Theory of pi-electron compounds (lecture)
  • Theory of the electronic structure of crystals (lecture)

Selected publications:

  1. L. Z. Stolarczyk and L. Piela,
    "Electronic valence-band calculation for the molecular hydrogen crystal",
    J. Phys. C 8, 3779-3787 (1975).
  2. L. Z. Stolarczyk and L. Piela,
    "Invariance properties of the multipole expansion with respect to the choice of the coordinate system",
    Int. J. Quantum Chem. 15, 701-711 (1979).
  3. L. Z. Stolarczyk,
    "Molecular tight-binding method. I. Many-electron method for hole bands of molecular crystals",
    Int. J. Quantum Chem. 21, 967-991 (1982).
  4. L. Z. Stolarczyk,
    "Molecular tight-binding method. II. One- and many-electron method for excess electron bands of molecular crystals",
    Int. J. Quantum Chem. 21, 993-1001 (1982).
  5. L. Z. Stolarczyk and L. Piela,
    "Direct calculation of lattice sums. A method to account for the crystal field effects",
    Int. J. Quantum Chem. 22, 911-927 (1982).
  6. L. Z. Stolarczyk and L. Piela,
    "Hypothetical memory effects in chains of donor-acceptor complexes",
    Chem. Phys. 85, 451-460 (1984).
  7. L. Z. Stolarczyk and H. J. Monkhorst,
    "Coupled-cluster method with optimized reference state",
    Int. J. Quantum Chem. S18, 267-291 (1984).
  8. L. Z. Stolarczyk and H. J. Monkhorst,
    "Coupled-cluster method in Fock space. I. General formalism",
    Phys. Rev. A 32, 725-742 (1985).
  9. L. Z. Stolarczyk and H. J. Monkhorst,
    "Coupled-cluster method in Fock space. II. Brueckner-Hartree-Fock method",
    Phys. Rev. A 32, 743-747 (1985).
  10. L. Z. Stolarczyk and H. J. Monkhorst,
    "Coupled-cluster method in Fock space. III. On similarity transformation of operators in Fock space",
    Phys. Rev. A 37, 1908-1925 (1988).
  11. L. Z. Stolarczyk and H. J. Monkhorst,
    "Coupled-cluster method in Fock space. IV. Calculation of expectation values and transition moments",
    Phys. Rev. A 37, 1926-1933 (1988).
  12. L. Z. Stolarczyk, M. Jeziorska and H. J. Monkhorst,
    "On the exact Hartree-Fock exchange in one-dimensional metals",
    Phys. Rev. B 37, 10646-10657 (1988).
  13. L. Z. Stolarczyk and H. J. Monkhorst,
    "Quasiparticles in extended systems. A coupled-cluster approach",
    in: "Aspects of many-body effects in molecules and extended systems",
    D. Mukherjee, ed., Lecture Notes in Chemistry 50, 261-279
    (Springer, Berlin, 1989).
  14. M. Jeziorska, L. Z. Stolarczyk, J. Paldus and H. J. Monkhorst,
    "On the exact Hartree-Fock exchange in one-dimensional metals. II",
    Phys. Rev. B 41, 12473-12483 (1990).
  15. M. Barysz, H. J. Monkhorst and L. Z. Stolarczyk,
    "Fock-space coupled-cluster method. A study of the electronic states of model pi-electron systems"
    Theor. Chim. Acta 80, 483-507 (1991).
  16. L. Z. Stolarczyk,
    "Complete active space coupled-cluster method.
    Extension of single-reference coupled-cluster method using the CASSCF wavefunction"
    Chem. Phys. Lett. 217, 1-6 (1994).
  17. L. Z. Stolarczyk,
    "On the hierarchy of pi-electron models"
    Pol. J. Chem. 72, 1691-1736 (1998).
  18. R. Podeszwa, S. A. Kucharski, and L. Z. Stolarczyk,
    "Electronic correlation in cyclic polyenes. Performance of coupled-cluster methods with higher excitations",
    J. Chem. Phys. 116, 480-493 (2002).
  19. R. Podeszwa R. and L. Z. Stolarczyk,
    "Second-order electronic correlation effects in a one-dimensional metal",
    Phys. Rev. B, 71, 205114(1-19) (2005).
  20. L. Z. Stolarczyk,
    "The Hodge operator in fermionic Fock space",
    Collect. Czech. Chem. Commun. 70, 979-1016 (2005).
  21. L. Z. Stolarczyk and H. J. Monkhorst,
    "Quasiparticle Fock-space coupled-cluster theory",
    Mol. Phys. 108, 3067-3089 (2010).