GIOVANNI B. BACHELET: ELENCO COMPLETO DELLE PUBBLICAZIONI SCIENTIFICHE

articoli su riviste internazionali
proceedings su riviste internazionali
proceedings su volumi
libri, capitoli di libri e monografie
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ARTICOLI SU RIVISTE INTERNAZIONALI

  1. Theory of excitonic effects in semiconductor surface spectroscopy
    M. Altarelli, G.B. Bachelet and R. Del Sole, J. Vac. Sci. and Technol. 16, 1370 (1979)
  2. Self-consistent calculations of the electronic structure for ideal Ga and As vacancies in GaAs
    G.B. Bachelet, G.A. Baraff and M. Schlüter, Phys. Rev. B 24, 915 (1981)
  3. Structural energy calculations based on norm-conserving pseudopotentials and localized gaussian orbitals
    G.B. Bachelet, G.A. Baraff and M. Schlüter, Phys. Rev. B 24, 4745 (1981)
  4. Defects in diamond: the unrelaxed vacancy and substitutional nitrogen
    G.B. Bachelet, G.A. Baraff and M. Schlüter, Phys. Rev. B 24, 4736 (1981)
  5. Relativistic norm-conserving pseudopotentials
    G.B. Bachelet and M. Schlüter, Phys. Rev. B 25, 2103 (1982)
  6. Comment on Simulation of high-field transport in GaAs using a Monte Carlo method and pseudopotential band structures and on Band structure dependent transport and impact ionization in GaAs
    F. Capasso, T.P. Pearsall, K.K. Thornber, R.E. Nahory, M.A. Pollack, J.R. Chelikowsky and G.B. Bachelet, J. Appl. Phys. 53, 3224 (1982)
  7. Static atomic polarizabilities from norm-conserving pseudopotentials
    G.B. Bachelet, C. Tanner and M. Schlüter, phys. stat. sol. (b) 110, 313 (1982)
  8. Pseudopotentials that work: from hydrogen to plutonium
    G.B. Bachelet, D.R. Hamann and M. Schlüter, Phys. Rev. B 26, 4199 (1982); (E) Phys. Rev. B 29, 2309 (1984); reply to a comment, Phys. Rev. B 37, 4798 (1988)
  9. Tractable approach for calculating lattice distortions around simple defects in semiconductors: application to the single Ge donor in GaP
    M. Scheffler, J.P. Vigneron and G.B. Bachelet, Phys. Rev. Lett. 49, 1765 (1982)
  10. AsGa antisite defect in GaAs
    G.B. Bachelet, M. Schlüter and G.A. Baraff, Phys. Rev. B 27, 2545 (1983)
  11. Electron-core hole interactions at surfaces: an exactly soluble model (qui pdf)
    M. Altarelli, G.B. Bachelet, V. Bouché and R. Del Sole, Surface Science 129, 447 (1983)
  12. Surface and size effects on the electronic states of small particles: a model calculation
    G.B. Bachelet, F. Bassani, M. Bourg and A. Julg, J. Phys. C: Solid State Phys. 16, 4305 (1983)
  13. Structural determination of Cl chemisorption on Si<111>and Ge<111> by total energy minimization
    G.B. Bachelet and M. Schlüter, Phys. Rev. B 28, 2302 (1983)
  14. Nonlocal exchange and correlation and semiconductor band structure
    F. Manghi, G. Riegler, C.M. Bertoni, C. Calandra and G.B. Bachelet, Phys. Rev. B 28, 6157 (1983); (E) Phys. Rev. B 29, 5966 (1984)
  15. Relativistic and core relaxation effects on the energy bands of GaAs and Ge
    G.B. Bachelet and N.E. Christensen Phys. Rev. B 31, 879 (1985)
  16. Band-structure calculation for Si and GaAs beyond the local density approximation
    F. Manghi, G. Riegler, C.M. Bertoni and G.B. Bachelet, Phys. Rev. B 31, 3680 (1985)
  17. Total energy gradients and lattice distortions at point defects in semiconductors
    M. Scheffler, J.P. Vigneron and G.B. Bachelet, Phys. Rev. B 31, 6541 (1985)
  18. Long range order in AlGaAs
    N.E. Christensen, E. Molinari and G.B. Bachelet, Solid State Commun. 56, 125 (1985)
  19. Conduction-band energy of excess electrons in liquid Argon
    B. Plenkiewicz, J.P. Jay-Gerin, P. Plenkiewicz and G.B. Bachelet, Europhysics Letters 1, 455 (1986)
  20. Novel pseudo-Hamiltonian for quantum Monte Carlo
    G.B. Bachelet, D.M. Ceperley and M. Chiocchetti, Phys. Rev. Lett. 62, 2088 (1989)
  21. Role of forms of exchange and correlation used in generating pseudopotentials
    E. Shirley, R.M. Martin, G.B. Bachelet, and D.M. Ceperley, Phys. Rev. B 42, 5057 (1990); (E) 43, 6780 (1991)
  22. Pseudopotentials and physical ions
    P. Focher, A. Lastri, M. Covi, and G.B. Bachelet, Phys. Rev. B 44, 8486 (1991)
  23. Pseudojellium model with an application to lithium clusters
    Ll. Serra, G.B. Bachelet, Nguyen Van Giai, and E. Lipparini, Phys. Rev. B 48, 14708 (1993)
  24. Local norm-conserving pseudo-hamiltonians
    A. Bosin, V. Fiorentini, A. Lastri, and G.B. Bachelet, Phys. Rev. A 52, 236 (1995)
  25. Chemical hardness, linear response, and pseudopotential transferability
    A. Filippetti, D. Vanderbilt, W. Zhong, Y. Cai, and G.B. Bachelet, Phys. Rev. B 52, 11793 (1995)
  26. Alkali-metal plasmons, pseudopotentials, and optical sum rules
    P. Alippi, P. La Rocca, and G.B. Bachelet, Phys. Rev. B 55, 13835 (1997)
  27. Variational quantum Monte Carlo calculations of the cohesive properties of cubic boron nitride
    A. Malatesta, S. Fahy, and G.B. Bachelet, Phys. Rev. B 56, 12201 (1997)
  28. Phase separation in the 2D Hubbard model: a fixed-node quantum Monte Carlo study
    A.C. Cosentini, M. Capone, L. Guidoni, and G.B. Bachelet, Phys. Rev. B 58, R14685 (1998)
  29. Analytic static structure factors and pair-correlation functions for the unpolarized homogeneous electron gas
    P. Gori-Giorgi, F. Sacchetti, and G.B. Bachelet, Phys. Rev. B 61, 7353 (2000); (E) 66, 159901 (2002)
  30. Correlation energy and spin polarization in the 2D electron gas
    C. Attaccalite, S. Moroni, P. Gori-Giorgi, and G.B. Bachelet, Phys. Rev. Lett. 88, 256601 (2002); (E) 91, 109902 (2003)
  31. Small Fermi energy and phonon anharmonicity in MgB2 and related compounds
    L. Boeri, G.B. Bachelet, E. Cappelluti, and L. Pietronero, Phys. Rev. B 65, 214501 (2002)
  32. Pair-distribution functions of the two-dimensional electron gas
    P. Gori-Giorgi, S. Moroni, and G.B. Bachelet, Phys. Rev. B 70, 115102 (2004)
  33. A local density functional for the short-range part of the electron-electron interaction
    L. Zecca, P. Gori-Giorgi, S. Moroni, and G.B. Bachelet, Phys. Rev. B 70, 205127 (2004)
  34. Small Fermi energy effects in MgB2 and related compounds
    E. Cappelluti, G.B. Bachelet, L. Boeri, S. Ciuchi, C. Grimaldi, L. Pietronero, S. Strässler Physica C (2004)
  35. Electrons and phonons in the ternary alloy CaAl2–xSix as a function of composition
    M. Giantomassi, L. Boeri, and G.B. Bachelet, Phys. Rev. B 72, 224512-224520 (2005)
  36. Local-spin-density functional for multideterminant density functional theory
    Simone Paziani, Saverio Moroni, Paola Gori-Giorgi, Giovanni B. Bachelet, Phys. Rev. B 73, 155111-15519 (2006)
  37. Unresolved problems in superconductivity of CaC6
    I. I. Mazin, L. Boeri, O.V. Dolgov, A.A. Golubov, G.B. Bachelet, M. Giantomassi, O.K. Andersen, Physica C (2007)
  38. Electron-phonon interaction in graphite intercalation compounds
    L. Boeri, G.B. Bachelet, M. Giantomassi, O.K.Andersen, Physical Review B 76, 064510 (2007)
  39. Absence of superconductivity in iron polyhydrides at high pressures
    C. Heil, G.B. Bachelet, and L. Boeri, Phys. Rev. B 97, 214510 (2018)
  40. The road to room-temperature conventional superconductivity
    L. Boeri and G.B. Bachelet, J. Phys.: Condens. Matter 31, 234002 (2019)
  41. Superconductivity in sodalite-like yttrium hydride clathrates
    C. Heil, S. di Cataldo, G.B. Bachelet, and L. Boeri, Phys. Rev. B 99, 220502(R) (2019)
  42. Comment on "Simplified LCAO Method for the Periodic Potential Problem"
    S. Qulaghasi and G.B. Bachelet, submitted on Jan. 21, 2019
  43. High-Tc Superconductivity in doped boron-carbon clathrates
    S. Di Cataldo, S. Qulaghasi, G. B. Bachelet, L. Boeri, Phys. Rev. B 105, 064516 (2022)
  44. Why Mercury is a superconductor
    Cesare Tresca, Gianni Profeta, Giovanni Marini, Giovanni B. Bachelet, Antonio Sanna, Matteo Calandra, Lilia Boeri, Phys. Rev. B 106, L180501 (2022);
    see also Explaining Mercury's Superconductivity, 111 Years Later, Physics 15, s155 (2022), and Highlights of the Year, Physics 15, 197 (2022)

GIOVANNI B. BACHELET
PROCEEDINGS APPARSI COME ARTICOLI SU RIVISTE INTERNAZIONALI CON REFEREE

  1. Bonding geometries of Cl on Si<111> and Ge<111>
    G.B. Bachelet and M. Schlüter, J. Vac. Sci. and Technol. B 1, 726 (1983)
  2. Green's function approach to realistic calculations of the electronic structure of semiconductor interfaces
    E. Molinari, G.B. Bachelet and M. Altarelli, Surf. Sci. 152, 1178 (1985)
  3. Green's function matching method for realistic calculations of interfaces
    E. Molinari, G.B. Bachelet, and M. Altarelli, J. Phys. (Paris) 46, C4-321 (1985)
  4. Chemical bonding and lattice relaxations of deep-level defects
    M. Scheffler, F. Beeler, O. Jepsen, O. Gunnarsson, O.K. Andersen, and G.B. Bachelet, J. Electron. Materials 14a, 45 (1985) [Proceedings of the 13th International Conference on Defects in Semiconductors, L.C. Kimerling, and J.M. Parsey Editors, a publication of The Metallurgical Society of Aime (ISBN 10: 0895204851 / ISBN 13: 9780895204851)]
  5. Lattice defects in semiconductors: Towards a finite-temperature theory (qui il pdf)
    G.B. Bachelet and G. De Lorenzi, Physica Scripta T19, 311 (1987)
  6. Alkali clusters: beyond the jellium sphere
    Ll. Serra, G.B. Bachelet, Nguyen Van Giai, and E. Lipparini, Journal de Physique IV, 1965 (1993), [Colloque C7, supplément au Journal de Physique III, Volume 3]
  7. Correlation energy, pair-distribution functions and static structure factors of jellium
    P. Gori-Giorgi, F. Sacchetti, and G.B. Bachelet, Physica A 280,199-205 (2000)
  8. Nonadiabatic effects and the role of small Fermi energy in MgB2
    E. Cappelluti, C. Grimaldi, L. Pietronero, S. Strässler, L. Boeri, and G.B. Bachelet, International Journal of Modern Physics B 17, 560-566 (2003)
  9. Two-dimensional electron gas: correlation energy versus density and spin polarization
    P. Gori-Giorgi, C. Attaccalite, S. Moroni, and G.B. Bachelet, International Journal of Quantum Chemistry 91, 126-130 (2003)
  10. The origin of phonon anharmonicity in MgB2 and related compounds
    L. Boeri, G.B. Bachelet, E. Cappelluti, and L. Pietronero, Supercond. Sci. Technol. 16, 143-146 (2003)

GIOVANNI B. BACHELET
ARTICOLI APPARSI SU VOLUMI DI PROCEEDINGS

  1. Ballistic electron impact ionization in GaAs and InP
    F. Capasso and G.B. Bachelet, in:1980 International Electron Device Meeting, Technical Digest, p. 633, IEEE (1980)
  2. No large lattice relaxations around the As antisite defect in GaAs
    G.B. Bachelet and M. Scheffler, in: Proceedings of the 17th International Conference on the Physics of Semiconductors, (J.D. Chadi and W.A. Harrison, Eds.), p.755, Springer, New York 1985
  3. 1s core shifts and the gap of tetrahedral semiconductors
    N.E. Christensen and G.B. Bachelet, in: Proceedings of the 17th International Conference on the Physics of Semiconductors, (J.D. Chadi and W.A. Harrison, Eds.), p. 1009, Springer, New York 1985
  4. Free energy of formation of lattice vacancies in semiconductors
    G.B. Bachelet, G. Jacucci, R. Car and M. Parrinello in: Proceedings of the 18th International Conference on the Physics of Semiconductors (O. Engström, Ed.), p.801, World Scientific, Singapore 1987
  5. Density functional theory and first-principles pseudopotentials: two important tools in solid-state theory
    Giovanni B. Bachelet
    Proceedings of the First Donegani Scientific Workshop on Strategies for Computer Chemistry, Camillo Tosi Ed. (October 12-13, 1987)
  6. From electronic structure to thermodynamics
    G.B. Bachelet in: Defects in Electronic Materials (M. Stavola, S.J. Pearton and G. Davies, Eds.), Materials Research Society Symposium Proceedings 104, 13 (1988)
  7. Computer Simulation in Materials Science
    G. Jacucci, G.B. Bachelet, G.L. Chiarotti, G. De Lorenzi, M. Marchese and M. Ronchetti in: Rendiconti della Scuola Internazionale di Fisica ``Enrico Fermi'', Corso CVI (F. Fumi, M.P. Tosi and G.F. Chiarotti, Eds.), p.121 North Holland (1990)
  8. Pseudopotential portability in the QMC framework
    M. Menchi, A. Bosin, F. Meloni, and G.B. Bachelet, in: Materials Research Society Symp. Proc. 291, Materials Theory and Modelling, pag. 291 (1993), (J. Broughton, P. Bristowe, J. Newsam, Editors)
  9. Pseudohamiltonians and Quantum Monte Carlo
    A. Bosin, V. Fiorentini, A. Lastri, and G.B. Bachelet in: Materials Research Society Symp. Proc. 291, Materials Theory and Modelling, pag. 21 (1993) (J. Broughton, P. Bristowe, J. Newsam, Editors)
  10. Curvilinear coordinates for full-core atoms
    A. Putrino and G.B. Bachelet, Conference Proceedings Vol. 61, Advances in Computational Materials Science II, pag. 35, (V. Fiorentini and F. Meloni, Eds.), SIF, Bologna 1998
  11. Model static structure factors and pair-correlation functions for the unpolarized homogeneous electron gas
    G.B. Bachelet, P. Gori-Giorgi, and F. Sacchetti, in: Density Functional Theory and its application to materials, (V. Van Doren, C. Van Alsenoy, and P. Geerlings, Editors), AIP Conference Proceedings 577 (2001)
  12. Quantum Monte Carlo for realistic and model solids
    P. Gori-Giorgi, A. Federico, and G.B. Bachelet, in: Recent advances in quantum Monte Carlo Methods - Part II, (W.A. Lester, S. Rothstein, and S. Tanaka, Editors), World Scientific (2002) , pagg. 205-217
  13. Static ground-state properties of the 2D electron gas
    P. Gori-Giorgi, S. Moroni, and G.B. Bachelet, in: Condensed Matter Theories Volume 20, pp. 13-21, edited by J.W. Clark, R.M. Panoff, and H. Li (Nova Publishers, 2006)

LIBRI, CAPITOLI DI LIBRI E MONOGRAFIE
  1. Electronic and structural properties of deep centers in semiconductors
    G.B. Bachelet Chapter 7 of: Crystalline semiconducting materials and devices (P.N. Butcher, N.H. March and M.P. Tosi, Eds.), Plenum Press, New York 1986
  2. Density functional theory and first-principles pseudopotentials: two important tools in solid-state theory
    G.B. Bachelet, in: Strategies for Computer Chemistry (C. Tosi, Ed.), p.119, Kluwer Academic Publishers, Dordrecht (1989)
  3. Atomic pseudo-Hamiltonians and quantum Monte Carlo
    G.B. Bachelet, D.M. Ceperley, M.G.B. Chiocchetti, and L. Mitàs, in: Progress in Electron Properties of Solids, Festschrift in honor of Franco Bassani, (E. Doni, R.Girlanda, G. Pastori Parravicini, and A.Quattropani, Eds.), p.11, Kluwer Academic Publishers, Dordrecht (1989)
  4. voce "Isolante"
    G.B. Bachelet, Dizionario delle Scienze Fisiche Istituto della Enciclopedia Italiana fondato da Giovanni Treccani (1995)
  5. Phase separation in the 2D Hubbard model: a challenging application of fixed-node QMC
    G.B. Bachelet and A. Cosentini in: Quantum Monte Carlo in Physics and Chemistry(C. Umrigar and M.P. Nightingale, Eds.), p. 375-397 NATO-ASI series, Kluwer Academic Publishers, Dordrecht (1999)
  6. More than a founding father
    G.B. Bachelet, in: Walter Kohn, Personal Stories and Anecdotes Told by Friends and Collaborators Edited by M. Scheffler and P. Weinberger in the occasion of the 80th birthday of W. Kohn (Springer 2003)
  7. voce "Electronic Structure: The pseudopotential method"
    A. Filippetti and G.B. Bachelet, Encyclopedia of Condensed Matter Physics (F. Bassani, J. Liedl, and P. Wyder, Editors) Elsevier, Amsterdam (2005)
  8. Elementi di fisica atomica, molecolare e dei solidi
    G.B. Bachelet e V.D.P. Servedio (Aracne 2014)

GIOVANNI B. BACHELET
ALTRE PUBBLICAZIONI SCIENTIFICHE

  1. Fisica computazionale dei sistemi a molti elettroni
    G.B. Bachelet, in: Scienza e Supercalcolo, edited by M. Lanzarini and G. Erbacci, Bologna 1991
  2. CECAM Workshop on Quantum Monte Carlo. Scientific Report.G.B. Bachelet and W.A. Lester, Jr. Università di Trento, Dipartimento di Fisica, preprint U.T.F. 235 (August 1991)
  3. Atomi e pseudoatomi relativistici: basi teoriche e codice fortran
    Paola Alippi, Alessio Filippetti e Giovanni B. Bachelet, CNR Progetto Finalizzato Sistemi Informatici e Calcolo Parallelo Rapporto Tecnico N. 1/151 (Marzo 1993)
  4. Dinamica molecolare di metalli semplici: basi teoriche e codice fortran
    Claudia Filippi, Gerard Barkema, Paolo La Rocca e Giovanni B. Bachelet, CNR Progetto Finalizzato Sistemi Informatici e Calcolo Parallelo Rapporto Tecnico N. 1/182 (Marzo 1994)
  5. Uno sguardo alla scienza dei materiali
    Giovanni B. Bachelet e Luciano Colombo, Sapere, Aprile 2000
  6. Electrons, Phonons, and Stability of CaAl2–xSix
    M. Giantomassi, L. Boeri, and G.B. Bachelet, Science and Supercomputing 2005, CINECA annual report