{"id":43,"date":"2014-04-25T17:38:24","date_gmt":"2014-04-25T21:38:24","guid":{"rendered":"http:\/\/physics.cos.ucf.edu\/turkowski\/?page_id=43"},"modified":"2025-04-28T15:12:41","modified_gmt":"2025-04-28T19:12:41","slug":"publications","status":"publish","type":"page","link":"https:\/\/sciences.ucf.edu\/physics\/turkowski\/publications\/","title":{"rendered":"Publications"},"content":{"rendered":"

Book chapters<\/h2>\n
    \n
  1. V.M. Loktev and V. Turkowski, “Superconducting properties of the 2D models with different types of inter-particle coupling”, Chapter in “Superconductivity research at the leading edge”, Ed. P.S. Lewis (Nova Science Publishers, New York, 2003).<\/li>\n
  2. V. Turkowski, J.K. Freericks, “Nonequilibrium dynamical mean-field theory of strongly correlated electrons”. Chapter in “Strongly Correlated Systems, Coherence and Entanglement”, Eds. J.M.P Carmelo, J.M.B Lopes dos Santos, V.R. Vieira and P.D. Sacramento, P. 187 (World Scientific, 2007).<\/li>\n
  3. V. Turkowski, V.R. Vieira, P.D. Sacramento, “Dynamics and domain growth inquantum spin systems”. Chapter in “Strongly Correlated Systems, Coherence and Entanglement”, Eds. J.M.P Carmelo, J.M.B Lopes dos Santos, V.R. Vieira and P.D.S. Sacramento, P. 163 (World Scientific, 2007).<\/li>\n
  4. M. Erementchouk, V. Turkowski and M. N. Leuenberger, “Quantum Field Theory of Exciton Correlations and Entanglement in Semiconductor Structures”, Chapter in “Advances in Quantum Field Theory”, Ed. S. Ketov, P. 125 (Intech Publisher, Croatia, 2012).<\/li>\n<\/ol>\n

    Refereed publications<\/h2>\n
      \n
    1. A.D. Suprun, V.M. Turkowski, K.V. Usenko, “Dependence of the threshold characteristics for destroy of the material surface by pulsed radiation on the real conditions of absorption”, Poverkhnost\u00b4 (Surface) N1, 88 (1995) (in Russian).<\/li>\n
    2. I.A. Shovkovy and V.M. Turkowski, “Dimensional reduction in Nambu-Jona-Lasinio model in External Chromomagnetic Field”, Phys. Lett. B 367<\/b>, 213 (1996).<\/li>\n
    3. V.M. Turkowski,“Dynamical Symmetry Breaking and Pairing in Anyon Systems”, Ukrainian Journ. of Phys. 42<\/b>, 115 (1997) (in Ukrainian).<\/li>\n
    4. V.M. Loktev, V.M. Turkowski, S.G. Sharapov, “Crossover from superfluidity to superconductivity in 2D indirect interacted fermion system”, Journ. of Phys. Studies 1<\/b>, 431 (1997) (in Ukrainian).<\/li>\n
    5. V.M. Loktev, S.G. Sharapov, V.M. Turkowski, “Phase diagram in 2D Froelich model of metal at arbitrary carrier density: pseudogap versus doping”, Physica C 296<\/b>, 84 (1998).<\/li>\n
    6. V.M. Loktev and V.M. Turkowski,“On temperature versus doping phase diagrof high-temperature superconductors”, Cond. Mat. Phys. 1<\/b>, 113 (1998).<\/li>\n
    7. V.M. Loktev, V.M. Turkowski, S.G. Sharapov,“On the theory of superconductivity in 2D Froelich model of metal at arbitrary carrier density”, Theor. and Math. Phys. 115<\/b>, 694 (1998).<\/li>\n
    8. V.M. Loktev and V.M. Turkowski,“Order parameter fluctuations and superconducting transition temperature in quasi-2D metals with arbitrary carrier density”, Low Temp. Phys. 24<\/b>, 767 (1998).<\/li>\n
    9. V.M. Loktev and V.M. Turkowski, “On the theory of pseudogap formation in 2D attracting fermion systems”, JETP 87<\/b>, 329 (1998).<\/li>\n
    10. V.M. Loktev and V.M. Turkowski, “Green function of fermions in 2D superconducting Froelich model with inhomogeneous order parameter”, Low Temp. Phys. 26<\/b>, 97 (2000).<\/li>\n
    11. V.M. Loktev and V. Turkowski, “Crossover from superfluidity to superconductivity in a system with doping dependent attraction”, Physica C 383<\/b>, 256 (2002).<\/li>\n
    12. F. Mancini and V. Turkowski, “Study of the Mott transition in the three-dimensional Hubbard model”, Acta Physica Polonica A 101<\/b>, 505 (2002).<\/li>\n
    13. V.M. Loktev and V. Turkowski, “Temperature-doping phase diagram of layered superconductors”. Phys. Rev. B 67<\/b>, 214510 (2003).<\/li>\n
    14. A. Avella, F. Mancini and V. Turkowski, “Bosonic sector of the two-dimensional Hubbard model studied within a two-pole approximation”, Phys. Rev. B 67<\/b>, 115123 (2003).<\/li>\n
    15. V. Turkowski, V.R. Vieira and P.D. Sacramento, “Non-equilibrium properties of the S=1\/2 Heisenberg model in a time-dependent magnetic field”, Physica A 327<\/b>, 461 (2003).<\/li>\n
    16. V.M. Loktev, V. Turkowski, “On the theory of pseudogap anisotropy in the cuprate superconductors”, Int. Journ. of Mod. Phys. B 18<\/b>, 2035 (2004).<\/li>\n
    17. V.M. Loktev and V. Turkowski, “Doping-dependent superconducting properties of two-dimensional metals with different types of inter-particle coupling (Review)”, Low Temp. Phys. 30<\/b>, 179 (2004).<\/li>\n
    18. J.K. Freericks, V.M. Turkowski, V. Zlati\u0107, “F-electron spectral function of the Falicov-Kimball model in infinite dimensions: the half-filled case”, Phys. Rev. B 71<\/b>, 115111(2005).<\/li>\n
    19. V. Turkowski, J.K. Freericks, “Nonlinear response of Bloch electrons in infinite dimensions”, Phys. Rev. B 71<\/b>, 085104 (2005).<\/li>\n
    20. J.K. Freericks, V.M. Turkowski, and V. Zlatic, “Nonequilibrium dynamical mean-fieldtheory”, Phys. Rev. Lett. 97, 266408 (2006).<\/li>\n
    21. V.M. Turkowski, J.K. Freericks, “Spectral moment sum rules for strongly correlated electrons in time-dependent electric fields”. Phys. Rev. B 73<\/b>, 075108 (2006); Erratum: Phys. Rev. B 73<\/b>, 209902 (2006).<\/li>\n
    22. V.M. Turkowski, P.D. Sacramento, V.R. Vieira, “Domain growth in the Heisenberg ferromagnet: Effective vector theory of the S=1\/2 model”. Phys. Rev. B 73<\/b>, 214437 (2006).<\/li>\n
    23. V.M. Loktev, V.M. Turkowski, “On the theory of isotope-effect in the d-wave superconductors”, Journ. of Low Temp. Phys. 143<\/b>, 115 (2006).<\/li>\n
    24. V.M. Loktev, V.M. Turkowski, “Temperature-carrier-concentration phase diagram of a two-dimensional doped d-wave superconductor”, Low Temp. Phys. 32<\/b>, 802 (2006).<\/li>\n
    25. V.M. Loktev, V.M. Turkowski, “Superconductivity and superconducting order parameter phase fluctuations in a weakly doped antiferromagnet”, Phys. Rev. B 75<\/b>, 224513 (2007).<\/li>\n
    26. V.M. Turkowski and J.K. Freericks, “Nonequilibrium perturbation theory of the spinless Falicov-Kimball model”, Phys. Rev. 75<\/b>, 125110 (2007).<\/li>\n
    27. V.M. Loktev, V. Turkowski, “Spin fluctuations and the “strange metal” behavior of a weakly doped antiferromagnet”, Cond. Mat. Phys. 11<\/b>, 483 (2008).<\/li>\n
    28. V. Turkowski, J.K. Freericks, “Nonequilibrium sum rules for the retarded self-energy of strongly correlated electrons”, Phys. Rev. B 77<\/b>, 205102 (2008) [Editor’s suggestion].<\/li>\n
    29. V. Turkowski, C.A. Ullrich, “Time-dependent density-functional theory for ultrafast interband excitations”, Phys. Rev. B 77<\/b>, 075204 (2008) [selected also for Virtual Journal of Ultrafast Science].<\/li>\n
    30. J.K. Freericks, V. Turkowski, “Inhomogeneous spectral moment sum rules for the retarded Green function and self-energy of strongly correlated electrons or ultracold fermionic atoms in optical lattices”, Phys. Rev. B 80<\/b>, 115119 (2009) (Editors’s suggestion, selected for Virtual Journal of Atomic Quantum Fluids).<\/li>\n
    31. V.M. Loktev, V. Turkowski, “Superconducting properties of a boson-exchange model of doped graphene”, Low Temp. Phys. 35<\/b>, 632 (2009).<\/li>\n
    32. V. Turkowski, A. Leonardo, C.A. Ullrich, “Time-dependent density-functional theory approach for exciton binding energies”, Phys. Rev. B 79<\/b>, 233201 (2009).<\/li>\n
    33. V.M. Loktev, V. Turkowski, “Suppression of the superconducting Tc<\/sub> in doped graphene due to thermal fluctuations of the order parameter”, Phys. Rev. B 79<\/b>, 233402 (2009) [selected also for Virtual Journal for Nanoscience and Technology].<\/li>\n
    34. V.M. Loktev, V. Turkowski, “Spectral properties of a doped antiferromagnet with pairing correlations”, Jour. of Low Temp. Phys. 154<\/b>, 117 (2009).<\/li>\n
    35. V. Turkowski, C.A. Ullrich, T.S. Rahman, and Michael N. Leuenberger, “Time-dependent density-matrix functional theory for biexcitonic phenomena”, Phys. Rev. B 82<\/b>, 205208 (2010).<\/li>\n
    36. V. Turkowski, A. Kabir, N. Nayyar, and T.S. Rahman, “A DFT+DMFT approach for Nanosystems”, Journ. of Phys.: Cond. Mat. (Fast Track Communication) 22<\/b>, 462202 (2010) (Insitute of Physics Select \u2013 Editor’s Choice).<\/li>\n
    37. V.M. Loktev, V. Turkowski, “<\/b>Superconducting <\/b>properties of a two-dimensional doped semiconductor”, <\/b>Low Temp. Phys. 36<\/b>, 1004 (2010).<\/li>\n
    38. V.M. Loktev, V. Turkowski, “Possible high-temperature superconductivity in multilayer graphane: can the cuprates be beaten?”, Journ. of Low Temp. Phys. 164<\/b>, 264 (2011).<\/li>\n
    39. S. Tenney, W. He, J. Ratliff, S.I. Shah, G. Shafai, V. Turkowski, T.S. Rahman, D. Chen, “CO-induced Diffusion of Ni Atoms to the Surface of Ni-Au Clusters on TiO2(110)<\/span>“, Journal of Phys. Chem. C. 115<\/b>, 11112 (2011).<\/li>\n
    40. N. Nayyar, V. Turkowski and T.S. Rahman, “Optical Generation of Collective Plasmon
      \nModes in Small Gold Chains Induced by Doping Transition-Metal Impurities”, Phys. Rev. Lett. 109<\/b>, 157404 (2012) .<\/li>\n
    41. V. Turkowski, S. Babu, D. Le, M. K. Haldar, A.Wagh, Zh. Hu, A. S. Karakoti, A. Gesquiere, B. Law, S. Mallik, T.S. Rahman, M.N. Leuenberger, S. Seal, “Linker-induced anomalous emission of organic molecule-conjugated metal oxide nanoparticles”, ACS Nano 6<\/b>, 4854 (2012).<\/li>\n
    42. V. Turkowski, A. Kabir, N. Nayyar and Talat S. Rahman, “Dynamical Mean-Field Theory for Molecules and Nanostructures”, Journal of Chemical Physics 136<\/b>, 114108 (2012).<\/li>\n
    43. S. Kahle, Zh. Deng, N. Malinowski, Ch. Tonnoir, A. Forment-Aliaga, N. Thontasen, G. Rinke, D. Le, V. Turkowski, T.S. Rahman, S. Rauschenbach, M. Ternes, and K. Kern, “Addressing the Quantum Magnetism of Individual Manganese-12-Acetate Molecular Magnets Anchored at Surfaces”, Nano Letters 12<\/b>, 518 (2012).<\/li>\n
    44. J. K. Freericks, V. Turkowski, H.R. Krishnamurthy, and M. Knap, “Spectral moment sum rules for the retarded Green’s function and self-energy of the inhomogeneous Bose-Hubbard model in equilibrium and nonequilibrium”, Phys. Rev. A 87<\/b>, 013628 (2013).<\/li>\n
    45. T.B. Rawal, V. Turkowski and T.S. Rahman, “Complementary roles of benzylpiperazine and iodine “vapor” in strong enhancement of orange photoluminescence from CuI(111) thin film”, Journ. of Phys.: Cond. Mat. 26<\/b>, 185005 (2014) (Institute of Physics Select \u2013 Editor’s Choice).<\/li>\n
    46. V. Turkowski and M.N. Leuenberger, “Time-dependent density-functional theory of exciton-exciton correlations in the nonlinear optical response”, Phys. Rev. B 89<\/b>, 075309 (2014) .<\/li>\n
    47. V. Turkowski, T.S. Rahman, “Nonadiabatic Time-Dependent Spin-Density Functional Theory for strongly correlated systems”, Journ. of Phys.: Cond. Mat. 26<\/b>, 022201 (2014) (Fast Track Communication, Institute of Physics Select \u2013 Editor’s Choice).<\/li>\n
    48. A. Ramirez-Torres, V. Turkowski, and T.S. Rahman, “Time-dependent density-matrix functional theory for trion excitations: application to monolayer MoS2<\/sub>“, Phys. Rev. B. 90, 085419 (2014).<\/li>\n
    49. A. Kabir, V. Turkowski, and T.S. Rahman, “DFT+Nonhomogeneous DMFT approach for Finite Systems”, submitted to Phys. Rev. Lett.; preprint arxiv:1311.3147 (2013).<\/a><\/li>\n<\/ol>\n

      Conference proceeding<\/h2>\n
        \n
      1. F. Mancini and V. Turkowski, “Spin magnetic susceptibility in the two-layer Hubbard model”, Physica B 284<\/b>–288<\/b>, 1575 (2000).<\/li>\n
      2. V.M. Loktev, Yu.G. Pogorelov and V.M. Turkowski, “Fluctuating order parameter in doped cuprate superconductors”, Int. Journ. Mod. Phys. B 17, 3607 (2003).<\/li>\n
      3. J.K. Freericks, V.M. Turkowski, V.Zlati\u0107, “Parallelizing the Keldysh formalism for strongly correlated electrons”. In “Proceedings of the 2004 Users Group Conference”, IEEE Computer Society, P.7, Los Alamitos, CA (2005).<\/li>\n
      4. J.K. Freericks, V.M. Turkowski, V. Zlati\u0107, “F-electron spectral function near a quantum critical point”, Physica B 359-361, 684 (2005).<\/li>\n
      5. J.K. Freericks, V.M. Turkowski, V. Zlati\u0107, “Real-time formalism for studying the non-linear response of “smart” materials to an electric field”. In “Proceedings of the 2005 Users Group Conference”, IEEE Computer Society, P.25, Nashville, TN (2005).<\/li>\n
      6. J.K. Freericks, V.M. Turkowski, “Steady-state nonequilibrium dynamical mean-field theory and the quantum Boltzmann equation”, Journ. of Phys: Conference Series 35, 39 (2006).<\/li>\n
      7. J.K. Freericks, V.M. Turkowski, and V. Zlati\u0107, “Nonlinear response of strongly correlated materials to large electric fields”. In “Proceedings of the HPCMP Users Group Conference 2006”, Denver, CO, June 26–29, 2006 (IEEE Computer Society, Los Alamitos, CA, 2006).<\/b><\/li>\n<\/ol>\n

        Other publications<\/h2>\n
          \n
        1. C.A. Ullrich, V. Turkowski, “Time-dependent density-functional theory for electronic excitations in materials: basics and perspectives”, preprint arXiv:0808.2021 (2008).<\/li>\n<\/ol>\n","protected":false},"excerpt":{"rendered":"

          Book chapters V.M. Loktev and V. Turkowski, “Superconducting properties of the 2D models with different types of inter-particle coupling”, Chapter in “Superconductivity research at the leading edge”, Ed. P.S. Lewis (Nova Science Publishers, New York, 2003). V. Turkowski, J.K. Freericks, “Nonequilibrium dynamical mean-field theory of strongly correlated electrons”. Chapter in “Strongly Correlated Systems, Coherence and […]<\/p>\n","protected":false},"author":3,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"footnotes":"","_links_to":"","_links_to_target":""},"class_list":["post-43","page","type-page","status-publish","hentry"],"yoast_head":"\nPublications - Dr. Volodymyr Turkowski<\/title>\n<meta name=\"robots\" content=\"index, follow, max-snippet:-1, max-image-preview:large, max-video-preview:-1\" \/>\n<link rel=\"canonical\" href=\"https:\/\/sciences.ucf.edu\/physics\/turkowski\/publications\/\" \/>\n<meta property=\"og:locale\" content=\"en_US\" \/>\n<meta property=\"og:type\" content=\"article\" \/>\n<meta property=\"og:title\" content=\"Publications - Dr. Volodymyr Turkowski\" \/>\n<meta property=\"og:description\" content=\"Book chapters V.M. Loktev and V. Turkowski, “Superconducting properties of the 2D models with different types of inter-particle coupling”, Chapter in “Superconductivity research at the leading edge”, Ed. P.S. Lewis (Nova Science Publishers, New York, 2003). V. Turkowski, J.K. Freericks, “Nonequilibrium dynamical mean-field theory of strongly correlated electrons”. 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