Publications List of Gabriel Kotliar

1. Optical Weights and Waterfalls in Doped Charge Transfer Insulators: an LDA+DMFTStudy of LSCO: Cédric Weber, Kristjan Haule, Gabriel Kotliar, arXiv:0804.1512 (2008).
   
2. Cluster Dynamical Mean Field Theory of the Mott Transition: H. Park, K. Haule, G. Kotliar, arXiv:0803.1324 (2008).
   
3. Correlated electronic structure of LaOFeAs: K. Haule, J. H. Shim, G. Kotliar, arXiv:0803.1279 (2008).
   
4. Sum-rules for Raman scattering off strongly correlated electron systems: L. de' Medici, A. Georges, G. Kotliar, arXiv:0803.0752 (2008).
   
5. Modelling the Localized to Itinerant Electronic Transition in the Heavy Fermion System CeIrIn5: J.H. Shim, K. Haule, G. Kotliar, Science 318, 1615-1617 (2007).
   
6. Strongly Correlated Superconductivity: a plaquette Dynamical mean field theory study: Kristjan Haule, Gabriel Kotliar, Phys. Rev. B 76, 104509 (2007).
7. A dynamical mean-field theory study of Nagaoka ferromagnetism: Hyowon Park, K. Haule, C. A. Marianetti, G. Kotliar, Phys. Rev. B 77, 035107 (2008). 
8. One-Electron Physics of the Actinides: A. Toropova, C. A. Marianetti, K. Haule, G. Kotliar, Phys. Rev. B 76, 155126 (2007).
9. Nodal/Antinodal Dichotomy and the Two Gaps of a Superconducting Doped Mott Insulator: M. Civelli, M. Capone, A. Georges, K. Haule, O. Parcollet, T. D. Stanescu, G. Kotliar, Phys. Rev. Lett. 100, 046402 (2008).
10. Rotationally-invariant slave-boson formalism and momentum dependence of the quasiparticle weight: Frank Lechermann, Antoine Georges, Gabriel Kotliar, Olivier Parcollet, Phys. Rev. B 76, 155102 (2007).
11. Disorder screening near the Mott-Anderson transition: M. C. O. Aguiar, V. Dobrosavljevic, E. Abrahams, G. Kotliar, Physica B 403, 1417 (2008).
12. Cellular Dynamical Mean Field Theory of the Periodic Anderson Model: Lorenzo De Leo, Marcello Civelli, Gabriel Kotliar, Phys. Rev. B 77, 075107 (2008).
13. An dynamical-mean-field-theory investigation of specific heat and electronic structure of alpha and delta-plutonium: L. V. Pourovskii, G. Kotliar, M. I. Katsnelson, A. I. Lichtenstein, Phys. Rev. B 75, 235107 (2007).
14. What is the valence of a correlated solid? The double life of delta-plutonium: J. H. Shim, K. Haule, G. Kotliar, Nature 446, 513-516 (2007).
15. The Orbital Selective Mott Transition in a Three Band Hubbard model: a Slave Boson Mean Field Study: Xi Dai, Gabriel Kotliar, Zhong Fang, cond-mat/0611075.
16. Doping Dependence of the Redistribution of Optical Spectral Weight in Bi₂Sr₂CaCu₂O_8+delta: F. Carbone, A.B. Kuzmenko, H.J.A. Molegraaf, E. van Heumen, V. Lukovac, F. Marsiglio, D. van der Marel, K. Haule, G. Kotliar, H. Berger, S. Courjault, P.H. Kes, M. Li, Phys. Rev. B 74, 064510 (2006).
17. Na Induced Correlations in Na_xCoO₂: C. A. Marianetti, G. Kotliar, Phys. Rev. Lett. 98, 176405 (2007).
18. Avoided Quantum Criticality near Optimally Doped High Temperature Superconductors: Kristjan Haule, Gabriel Kotliar, Phys. Rev. B 76, 092503 (2007).
19. Optical Conductivity of the t-J model within Cluster Dynamical Mean Field Theory: Kristjan Haule, Gabriel Kotliar, Europhys Lett. 77, 27007 (2007).
20. Invar model for d-phase Pu: thermal expansion, elastic and magnetic properties: A. C. Lawson, J. A. Roberts, B. Martinez, M. Ramos, G. Kotliar, F. W. Trouw, M. R. Fitzsimmons, M. P. Hehlen, J. C. Lashley, H. Ledbetter, R. J. Mcqueeney and A. Migliori,  Phil. Mag.,  86,  2713–2733 (2006).
21. Electronic structure calculations with dynamical mean-field theory: G. Kotliar, S. Savrasov, K. Haule, V. Oudovenko, O. Parcollet, and C. Marianetti, Rev. of Mod. Phys. 78, 000865 (2006).
22. Two Energy Scales and two Quasiparticle Dynamics in the Superconducting State of Underdoped Cuprates: M. Le Tacon, A. Sacuto, A. Georges, G. Kotliar, Y. Gallais, D. Colson, A. Forget, Nature Physics 2, p537 (2006).
23. Competition between d-wave superconductivity and antiferromagnetism in the two-dimensional Hubbard model: M. Capone, G. Kotliar, Phys. Rev. B 74, 054513 (2006).
24. Quantum Monte Carlo Study of Strongly Correlated Electrons: Cellular Dynamical Mean-Field Theory: B. Kyung, G. Kotliar, A. -M. S. Tremblay, Phys. Rev. B 73, 205106 (2006).
25. Local Self-Energy Approach For Electronic Structure Calculations: N.E. Zein, S. Y. Savrasov, G. Kotliar, Phys. Rev. Lett. 96, 226403 (2006).
26. Scaling behavior of an Anderson impurity close to the Mott-Anderson transition: M. C. O. Aguiar, V. Dobrosavljevic, E. Abrahams, G. Kotliar, Phys. Rev. B 73, 115117 (2006).
27. Fermi arcs and the hidden zeros of the Green's function in the pseudogap state: Tudor D. Stanescu, Gabriel Kotliar, Phys. Rev. B 74, 125110 (2006).
28. Anomalous superconductivity in doped Mott insulators: S. S. Kancharla, M. Civelli, M. Capone, B. Kyung, D. Senechal, G. Kotliar, A.-M.S. Tremblay,  cond-mat/0508205.
29. Many-Body Electronic Structure of Americium metal: Sergej Y. Savrasov, Kristjan Haule, Gabriel Kotliar, Phys. Rev. Lett. 96, 036404 (2006).
30. Electronic Structure Calculations of Strongly Correlated Electron Systems by the Dynamical Mean-Field Method: V. S. Oudovenko, G. Pálsson, K. Haule, G. Kotliar, and S. Y. Savrasov, Phys. Rev. B 73, 035120 (2006).
31. Pseudogap induced by short-range spin correlations in a doped Mott insulator: B. Kyung, S. S. Kancharla, D. Snchal, A. -M. S. Tremblay, M. Civelli, G. Kotliar,  Phys. Rev. B 73, 165114 (2006).
32. Optical spectroscopy and photoemission of alpha- and gamma-cerium from LDA+DMFT:
    Kristjan Haule and Gabriel Kotliar, Physica B: Condensed Matter, v. 359-361, 139-141 (2005).
33. Dynamical Breakup of the Fermi Surface in a Doped Mott Insulator: M. Civelli, M. Capone, S.S. Kancharla, O.Parcollet, and G. Kotliar, Phys. Rev. Lett. 95, 106402 (2005).
34. Effects of Disorder on the non-zero temperature Mott Transition:  M. C. O. Aguiar, V. Dobrosavljevic E. Abrahams, and G. Kotliar, Phys. Rev. B 71, 205115 (2005).
35.  Construction of Localized Basis for Dynamical Mean Field Theory: I. Paul and G. Kotliar, European Physical Journal B: Condensed Matter Physics 51, 189-193 (2006).
36. Understanding the Heavy Fermion Phenomenology from Microscopic Model: P. Sun and G. Kotliar, Phys. Rev. Lett. 95, 016402 (2005)
37. Consequences of the local spin self-energy approximation on the heavy Fermion quantum phase transition: P. Sun and G. Kotliar,  Phys. Rev. B 71, 245104 (2005).
38. Strong Coupling Solver for the Quantum Impurity Model: X. Dai and G. Kotliar, Phys. Rev. B 72, 045111 (2005).
39. Magnetic Anisotropy and Electronic Structure of CrO₂: A. Toropova, S. Savrasov,  V. Udovenko, and G. Kotliar, Phys. Rev. B 71, 172403 (2005).
40. Quantum Impurity Models as Reference Systems for Strongly Correlated  Materials: the road from the Kondo Impurity Model to first principles calculations using Dynamical Mean Field Theory: G. Kotliar, J. Phys. Soc. Jpn., 74, 147-154 (2005).
41. Green functions for nearest- and next-nearest-neighbor hopping on the Bethe lattice: M. Kollar, M. Eckstein, K. Byczuk, N. Blumer, P. van Dongen, M. H. Radke de Cuba, W. Metzner, D. Tanaskovic, V. Dobrosavljevic, G. Kotliar, D. Vollhardt,  Ann. Phys. (Leipzig) 14, 642 (2005).
42. Mott Transition and Kondo Screening in f-Electron Metals:  L. de Medici A. Georges G. Kotliar and S. Biermann,  Phys. Rev. Lett. 95, 066402 (2005).
43. Electronic Structure Calcualtions of Magnetic Properties of Solids: V. Antropov, G. Kotliar, A. Lichtenstein, S. Y. Savrasov, and A. Toropova,  Z. Kristallogr. 220 (2005) 473–488, cond-mat/0409704.
44. Exponential Convergence of Cellular Dynamical Mean Field Theory: G. Biroli and G. Kotliar,  Phys. Rev. B 71, 037102 (2005)
45. The alpha to gamma transition in Ce: a theoretical view from optical spectroscopy: K. Haule, V. Oudovenko, S. Savrasov, and G. Kotliar, Phys. Rev. Lett. 94, 036401 (2005).
46. Strong Coupling Dynamical Mean Field Theory: T. Stanescu and G. Kotliar, Phys. Rev. B 70, 205112 (2004).
47.  A first-order Mott transition in Li_xCoO₂:  C. Marianetti, G. Kotliar, and G. Ceder, Nature Materials 3, 627 - 631 (2004).
48. Electronic Structure of Strongly Correlated Materials: Insights from Dynamical Mean Field Theory: Gabriel Kotliar and Dieter Vollhardt, Physics Today 57, 53 (2004).
49. Superconductivity in americium metal as a function of pressure: probing the Mott transition: J. -C. Griveau, J. Rebizant, G.H. Lander, and G. Kotliar, Phys. Rev. Lett. 94, 097002 (2005).
50. Cluster Dynamical Mean-Field Theory of the density-driven Mott transition in the one-dimensional Hubbard model: M. Capone, M. Civelli, S. S. Kancharla, C. Castellani, and G. Kotliar, Phys. Rev. B 69, 195105 (2004).
51. Frequency-dependent local interactions and low energy effetive models from electronic structure calculations: F. Aryasetiawan, M. Imada, A. Georges, G. Kotliar, S. Biermann, and A. I. Lichtenstein, Phys. Rev. B 70, 195104 (2004).
52. The Mott transition and f electron physics: G. Kotliar and S. Savrasov, Int. J. of Mod. Phys. B17, 5101 (2003).
53. A decoupling scheme as an impurity solver: Application to infinite U Hubbard and periodic Anderson models: H. Jeschke and G. Kotliar, Phys. Rev. B 71, 085103 (2005).
54.  The Role of hybridization in Na_xCoO₂ and the Effect of Hydration: C. Marianetti, G. Kotliar, and G. Ceder, Phys. Rev. Lett. 92, 196405 (2004).
55. A Many-Body Approximation Scheme Beyond GW: P. Sun and G. Kotliar, Phys. Rev. Lett. 92, 196402 (2004).
56. Driving the electron over the edge:  G. Kotliar, Science 302, 67-69 (2003).
57. Non-local Coulomb interactions and metal-insulator transition in Ti₂O₃: a cluster LDA+DMFT approach:  A. Poteryaev, A Lichtenstein, and G. Kotliar, Phys. Rev. Lett. 93, 086401 (2004).
58. Cluster Dynamical Mean Field analysis of the Mott transition:  O. Parcollet, G. Biroli, G. Kotliar, Phys. Rev. Lett. 92, 226402 (2004).
59. Spectral Density Functionals for Electronic structure calculations:  S. Y. Savrasov and G. Kotliar, Phys. Rev. B 69, 245101 (2004).
60. Dynamical correlations in multiorbital Hubbard models:  Fluctuation-exchange approximations:  V. Drchal, V. Janis, J. Kudrnovsky, V. S. Oudovenko, X. Dai, K. Haule, and G. Kotliar, J. Phys. Cond. Matt. 17, 61-74 (2005); cond-mat/0307682.
61. Cluster Dynamical Mean Field Theories: Causality and classical limit: G. Biroli, O. Parcollet, and G. Kotliar, Phys. Rev. B 69, 205108 (2004).
62. Temperature dependant transport of correlated disordered electrons: elastic vs. inelastic scattering:  M. C. O. Aguiar, E. Miranda, V. Dobrosavljevic, E. Abrahams, and G. Kotliar, Europhys. Lett., 67 (2), 226-232 (2004).
63. Non-Fermi liquid behavior from two dimensional antiferromagnetic fluctuations: a renormalized-group and large-N analysis:  S. Pankov, S. Florens, A. Georges, G. Kotliar, and S. Sachdev, Phys. Rev. B 69, 054426 (2004).
64. Solution of the local field equations for self-generated glasses: S. Wu, J. Schamlian, G. Kotliar, and P. G. Wolynes, Phys. Rev. B 70, 024207 (2004).
65. Extended Dynamical Mean Field Theory Study of the Periodic Anderson Model:  P. Sun and G. Kotliar, Phys. Rev. Lett. 91, 037209 (2003).
66. Disorder Screening in Strongly Correlated Systems:  D. Tanaskovic, V. Dobrosavljevic, E. Abrahams, and G. Kotliar, Phys. Rev. Lett 91, 0666031 (2003).
67. Calculated Phonon Spectra of Plutonium at High Temperatures:  X. Dai, S. Y. Savrasov, G. Kotliar, A. Migliori, H. Ledbetter, and E. Abrahams, Science 300, 953-955 (2003).
68. Calculations of Optical Properties using Dynamical Mean Field Theory:  V. S. Oudovenko, G. Palsson,  S. Y. Savrasov, K. Haule and G. Kotliar,  Phys. Rev. B 70, 125112 (2004).
69. Importance of Correlation Effects on Magnetic Anisotropy in Fe and Ni: I. Yang, S. Y. Savrasov, and G. Kotliar, Phys. Rev. Lett. 87, 216405 (2001).
70. Cellular dynamical mean-field theory for the one-dimensional extended Hubbard model: C. J. Bolech, S. S. Kancharla, and G. Kotliar, Phys. Rev. B 67, 075110 (2003).
71. Linear Response Calculations of Lattice Dynamics in Strongly Correlated Systems:  S. Y. Savrasov, and G. Kotliar, Phys. Rev. Lett. 90, 056401 (2003).
72. Thermal Transport for Many Body Tight Binding Models: I. Paul and G. Kotliar, Phys. Rev. B 67, 115131 (2003).
73. Spectral Density Functional Approach to Electronic Correlations and Magnetism in Crystals:  A. Lichtenstein, M. Katsnelson, and G. Kotliar, (in Electron Correlations and Materials Properties 2nd  ed. by A. Gonis  N. Kioussis, M. Ciftan (Kluwer Academic/Plenum, New York (2003))); cond-mat/0211076.
74. Extended Dynamical Mean Field Theory and GW method:  P. Sun and G. Kotliar, Phys. Rev. B 66, 085120 (2002).
75. Mott transition at large orbital degeneracy: dynamical mean-field theory: S. Florens, A. Georges, G. Kotliar, and O. Parcollet, Phys. Rev. B 66, 205102 (2002).
76.  Semiclassical Analysis of Extended Dynamical Mean Field Equations:  S. Pankov, G. Kotliar, and Y. Motome, Phys. Rev. B 66, 045117 (2002).
77. Multi-patch model for transport properties of cuprate superconductor:  A. Perali, M. Sindel, and G. Kotliar, Eur. Phys. J. B 24, 487 (2001).
78. Thermoelectric properties of the degenerate Hubbard model:  V. S. Oudovenko and G. Kotliar, Phys. Rev. B 65, 075102 (2002).
79.  A Tale of Two Phase Diagrams:  G. Kotliar, (In honor of P. Wolfle's birthday), J. of Low Temp. Phys. 126, pp.1009-27.
80.  The Mott Transition and f-Electron Physics:  G. Kotliar, and S. Savrasov, (Series on Advances in Quantum Many-Body Theory - Vol. 6, Recent progress in many-body theory, edited by Raymond F Bishop, Tobias Brandes, Klaus A Gernoth, Niels R Walet and Yang Xian, World Scientific)..
81. Interpolative Approach for Solving  Impurity Models: S. Savrasov V. Oudovenko, K. Haule, D. Villani, and G. Kotliar, Phys. Rev. B 71, 115117 (2005).
82.  Compressibility Divergence and Mott Endpoints:  G. Kotliar, S. Murthy, and M. J. Rozenberg, Phys. Rev. Lett. 89, 046401 (2002).
83.  A note on cluster methods for strongly correlated electron systems: G. Biroli and G. Kotliar, Phys. Rev. B 65, 155112 (2002).
84.  Thermoelectric Power near Magnetic Quantum Critical Point: I. Paul and G. Kotliar, Phys. Rev. B 64, 184414.
85. Finite-temperature magnetism of transition metals: An ab initio Dynamical Mean-Field Theory:  A. Lichtenstein, M. Katsenelson, G. Kotliar,  Phys. Rev. Lett. 87, 067205 (2001).
86. Spectral Density Functionals for Electronic Structure Calculations: S. Savrasov and G. Kotliar, Phys. Rev. B 69,245101 (2004).
87. Cellular Dynamical Mean Field Approach to Strongly Correlated Systems:  G. Kotliar, S. Y. Savrasov, G. Palsson, and G. Biroli, Phys. Rev. Lett. 87, 186401 (2001).
88.  Importance of Correlation Effects on Magnetic Anisotropy in Fe and Ni: I. Yang, S. Y. Savrasov, and G. Kotliar, Phys. Rev. Lett. 87, 216405 (2001).
89. The Mott Transition Problem:  G Kotliar, (for the occasion  of PW Anderson birthday).
90. Electronic correlations in metallic Plutonium within dynamical mean-field picture: S. Savrasov, G. Kotliar, and E. Abrahams, Nature 410, 793 (2001).
91. Strongly Correlated Electrons: A Dynamical Mean Field Perspective: G. Kotliar, in Open Problems in Strongly Correlated Electron Systems, J. Bonca ed. 2001 Kluwer Academic Plublishers, 325-336.
92.  Model Hamiltonians and first principles electronic structure calculations: G. Kotliar, in New Theoretical Approaches to Strongly Correlated Systems, A. M. Tsvelik ed. 2001 Kluwer Academic Publishers. 259-301; cond-mat/0208241.
93.  Impact of magnetic frustration on the Mott transition within a slave-boson mean-field theory:  I. Yang, E. Lange, and G. Kotliar, Phys. Rev. B 61, 2521-4 (2000).
94.  Effect of Coulomb long range interactions on the Mott transition:  R. Chitra, G. Kotliar, Phys. Rev. Lett. 84, 3678-3681 (2000).
95. Ground State Theory of delta-Pu: G. Kotliar and S. Savrasov, Phys. Rev. Lett. 84, 3670-3673, (2000).
96.  The Mott transition and the strong correlation problem:  G. Kotliar, Physica A 280, 174-184 (2000).
97. Comment on "Density of States near the Mott-Hubbard Transition in the Limit of Infinite Dimensions:  A. Georges, and G. Kotliar, Phys. Rev. Lett. 84, 3500 (2000).
98.  Landau Theory of the Finite Temperature Mott Transition:  G. Kotliar, E. Lange, and M. J. Rozenberg, Phys. Rev. Lett. 84, 5180-5183 (2000).
99.  Dynamical Mean Field Theory and Electronic Structure Calculations:  R. Chitra, and G. Kotliar, Phys. Rev. B 62, 12715 (2000).
100. Two-scale analysis of the SU(N) Kondo Model:  D. Villani, E. Lange, A. Avella, and G. Kotliar, Phys. Rev. Lett. 85, 804-807 (2000).
101.  Effective action approach to strongly correlated fermion systems: R. Chitra, and G. Kotliar, Phys. Rev. B 63, 115110 (2001).
102. Fluctuation effects by boson dispersion in fermion-boson coupled systems:  Y. Motome and G. Kotliar, American Institute of Physics Conference Proceedings, no.554, 2001, p.p. 115-18. USA.
103. Effects of Boson Dispersion in Fermion-Boson Coupled System:  Y. Motome and G. Kotliar, Phys. Rev. B 62, 12800 (2000).
104.  The Finite Temperature Mott Transition in the Hubbard Model in Infinite Dimensions:  M. Rozenberg, R. Chitra, and G. Kotliar, Phys. Rev. Lett. 83, 3498-3501 (1999).
105. Compressibility of the Two-Dimensional infinite-U Hubbard Model:  A. Tandon, Z. Wang, and G. Kotliar, Phys. Rev. Lett. 83, 2046-2049 (1999).
106. Landau Theory of the Mott Transition in the Fully Frustrated Hubbard Model in Infinite Dimensions:  G. Kotliar, Eur. J. of Phys. B 11, 27-39 (1999).
107. Dynamical Mean Field Theory of the Antiferromagnetic Metal to Antiferromagnetic Insulator Transition: R. Chitra and G. Kotliar, Phys. Rev. Lett. 83, 2386-2389 (1999) .
108.  Magnetooptical sum rules close to the Mott transition: E. Lange and G. Kotliar, Phys. Rev. Lett. 82, 1317-20 (1999).
109.  Large-N treatment of the Abrikosov transition at low temperatures:  A. Lopatin and G. Kotliar, Phys. Rev. B 59, 3879-89 (1999) .
110.  The Mott transition in V ₂O₃ and NiSe_xS_{2-x  insights} from dynamical mean field theory:  G. Kotliar, Physica B, 259-261, 711-714 (1999).
111. Magnetotransport in the doped Mott insulator: E. Lange and G. Kotliar, Phys. Rev. B 59, 1800-7 (1999).
112.  Thermoelectric Response Near the Density Driven Mott Transition: G. Palsson and G. Kotliar, Phys. Rev. Lett. 80, 4775-8 (1998) .
113.  Metal-insulator transition in Si:X (X=P,B): Anomalous response to a magnetic field:  M. P. Sarachik, D. Simonian, S. V. Kravchenko, S. Bogdanovich, V. Dobrosavljevic, and G. Kotliar, Phys. Rev. B 58, 6692-5 (1998).
114.  Dynamical Mean Field Theory of the Mott transition:  V. Dobrosavlevic and G. Kotliar, Phil. Trans. R. Soc. Lond. A 356, 57-74 (1998).
115.  Overscreened multi-channel SU (N) Kondo model: Large-N solution and conformal field theory:  O. Parcollet, A. Georges, G. Kotliar, and A. Sengupta, Phys. Rev. B 58, 3794-813 (1998).
116. First-principles Calculations of the Electronic Structure and Spectra of Strongly Correlated Systems: Dynamical Mean-field Theory:  V. Anisimov, A. Poteryaev, M. Korotin, A. Anokhin, and G. Kotliar, J. Phys. Cond. Mat. 35, 7359-7367 (1997).
117.  Mean Field Theory of the Mott-Anderson Transition:  V. Dobrosavljevic and G. Kotliar, Phys. Rev. Lett. 78, 3943-3947 (1997).
118.  Evolution of Spectral Functions in Doped Transition Metal Oxides:  H. Kajueter, G. Kotliar, D. D. Sarma, and S. Barman, Int. J. of Mod. Phys. B 11, 3849-3857 (1997).
119. Scaling of the conductivity in Si.B. anomalous crossover in a magnetic field:  S. Bogdanovic, P. Dhai, M. Sarachik, V. Dobrosavlevic, and G. Kotliar, Phys. Rev. B 55, 4215-4218 (1997).
120.  Disorder-driven non-Fermi liquid behavior in Kondo alloys:  E. Miranda, V. Dobrosavljevic, and G. Kotliar, Phys. Rev. Lett. 78, 290-293 (1997) .
121.  Band Degeneracy and Mott Transition: Dynamical Mean Field Study: H. Kajueter and G. Kotliar, Int. J. of Mod. Phys. 11, 729 (1997).
122.  Interplay of Mott Transition and Ferromagnetism in the Orbitally Degenerate Hubbard Model:  R. Fresard and G. Kotliar, Phys. Rev. B 56, 12909-12915 (1997).
123.  The metal insulator transition in Correlated Electron systems: E. Abrahams and G. Kotliar, Science 274, 1853 (1996).
124. Kondo Disorder: a possible route towards Non-Fermi liquid behavior:  E. Miranda, V. Dobrosavljevic, and G. Kotliar, J. Phys. Cond. Mat. 8, 9871-9900 (1996).
125.  Effects of Orbital Degeneracy on the Mott Transition in Infinite Dimensions:  G. Kotliar and H. Kajueter, Phys. Rev. B 54, 14221-5 (1996) .
126.  Low Temperature Upper Critical Field Anomalies in Clean Superconductors:  G. Kotliar and C. M. Varma, Phys. Rev. Lett. 77 2296-2299 (1996).
127.  New Iterative Perturbation Scheme for Lattice Models with Arbitrary Filling:  H. Kajueter and G. Kotliar, Phys. Rev. Lett. 77, 131-134 (1996) .
128. Spectral Functions in doped Transition Metal Oxides: D. D. Sarma, S. Barman, H. Kajueter, and G. Kotliar, Europhys. Lett. 36, 307-312 (1996).
129.  Transfer of Spectral Weigth in Spectroscopies of Correlated Electron Systems:  M. Rozenberg, G. Kotliar, and H. Kajueter, Phys. Rev. B 54 ,8452-8458 (1996).
130.  Magnetic Field Induced Superconductor-Insulator Transition in the La_2-xSr_xCuO₄ System: K. Karpinska, A. Malinowski, M. Cieplak, S. Guha, S. Gershman, G. Kotliar, T. Skoskiewics, W. Plesiewicz, M. Berkowski, and P. Lindenfeld, Phys. Rev. Lett. 77, 3033-3036 (1996).
131.  Novel spectral evolution with elecxtron doping in d° transition metal oxides:  D. D. Sarma, S. Barman, H. Kajueter, and G. Kotliar, Physica B 223 & 224, 496-500 (1996).
132.  Doped Mott insulator: Results from Mean-Field Theory:  H. Kajueter, G Kotliar, and G. Moeller, Phys. Rev. B 53, 16214-16226 (1996).
133. Dynamical Mean Field Theory of Strongly Correlation Fermion Systems and the Limit of Infinite Dimensions:  A. Georges, G. Kotliar, W. Krauth, and M. Rozenberg, Rev. of Mod. Phys. 68, 13-125 (1996).
134. Hall Effect and Magnetoresistance in Copper-Oxide Metals:  G. Kotliar, A. Sengupta, and C. Varma, Phys. Rev. B 53, 3573-3577 (1996).
135. Tolouse Points and non Fermi Liquid States in the Mixed-valence Regime of the Generalized Anderson Model of the Anderson Impurity Model:  G. Kotliar, and Q. Si, Phys. Rev. B 53, 12373-12388 (1996).
136. The Mott Transition: Recent Results More Surprises: G. Kotliar, in the Metal to Non-Metal Transition Revisited, P.P.  Edwards and C.N.R. Rao editors (317-343) Taylor and Francis (1996).
137. Spectral functions of correlated electron systems in the local impurity self consistent approximation:  H. Kajueter and G. Kotliar, J. Phys. Chem. Solids 56, 1615-1617 (1995).
138.  Mid Gap States in The Doped Hubbard Model:  D. Fisher, G. Kotliar and G. Moeller, Phys. Rev. B52, 17112-17118 (1995).
139. The Mott transition in infinite dimensions: Old Ideas and Some Surprises: G. Kotliar and M. Rozenberg, in The Hubbard Model its Physics and Mathematical Physics, Edited by D. Bareswyl, D. Campbell, J. Carmelo, F. Guinea, and E. Louis Editors, Series B Physics: Vol 343 Plenum, 155-167 (1995).
140. Optical Conductivity in Mott Hubbard Systems:  M. Rozenberg, G. Kotliar, H. Kahuter, G. A. Thomas, D. H. Rapkine, J. M. Honig, and P. Metcalf, Phys. Rev. Lett. 75, 105-108 (1995).
141. The Mott transition: Mean Field Theory and Real Materials:  G. Kotliar, M. Rozenberg in " Superconductivity and Strongly Correlated Electron Systems", C. Noce A. Romano and G. Scarpetta, Editors World Scientific 1994, (9-23).
142. The Mean Field Theory of the Mott Hubbard Transition:  In Stongly correlated electrons 141-180, K. Bedell, Z. Wang, A. Balatzky, E. Abrahams editors, and Adison-Wesley (1994).
143.  The Mott transition in Infinite Dimensions at Zero Temperature:  M. Rozenberg, G. Moeller, and G. Kotliar, Mod. Phys. Lett. B 8, 535-543 (1994).
144.  Strong Correlation and Disorder in infinite dimensions and Beyond:  V. Dobrosavlevic and G. Kotliar, Phys. Rev. B 50, 1430-1444 (1994).
145. Critical Behavior near the Mott transition in the Hubbard Model: G. Moeller, Q. Si, G. Kotliar, M. Rozenberg, and D. S Fisher, Phys. Rev. Lett. 74, 2082-2085 (1995).
146. Correlation Induced Insulator to Metal transitions:  Q. Si, M. Rozenberg, G. Kotliar, and A. Ruckenstein, Phys. Rev. Lett. 72, 2761-2764 (1994).
147. The Mott Transition in Disordered Systems:  V. Dobrosavlevic and G. Kotliar, in Acta Physica Polonica 85, 21-38 (1994).
148. The Mott Hubbard transition in infinite dimensions II:  M. Rozenberg, G. Kotliar, and X. Y. Zhang, Phys Rev. B 49, 10181-10193 (1994).
149. Scaling Theory of the Hall Coefficient Near the Metal Insulator Transition: A Renormalization-Group Approach: X. Wang, Z. Wang, C. Castellani, M. Fabrizio, and G. Kotliar, Nucl. Phys. B 415, 589-629 (1994).
150. Superconductivity in the Two Band Hubbard Model in Infinite Dimensions: A. Georges, G. Kotliar, and W. Krauth, Z. Phys. B 92 313-321 (1993).
151. Quantum Chemistry Anomalous dimensions and the Breakdown of Fermi Liquid Theory in Strongly Correlated Systems:  G. Kotliar and Q. Si, Physica Scripta 49, 165-171 (1993).
152. Metallic non-Fermi Liquid phases of an extended Hubbard Model in Infinite Dimensions:  Q. Si and G. Kotliar, Phys. Rev. B 48 13881 (1993).
153. Hubbard Models with Random Hopping in d-> infinity:  V. Dobrosavljevic and G. Kotliar, Phys. Rev. Lett. 71, 3218-3221 (1993).
154. Charge Collective modes and dynamical pairing in the three band model: II. Strong coupling limit:  R. Raimondi, C. Castellani, M. Grilli, Y. Bang, and G. Kotliar, Phys. Rev. B 47, 3331-3352 (1993).
155. Charge Collective modes and dynamical pairing in the three band model: I. weak coupling limit:  Y. Bang, G. Kotliar, R. Raimondi, C. Castellani, and M. Grilli, Phys. Rev. B 47, 3323-3330 (1993).
156. Sign of Equilibrium Hall Conductivity in strongly correlated systems: A. Rojo, G. Kotliar, and G. Canright, Phys. Rev. B 47, 9140-9143 (1993).
157. Optical conductivity in the t-J model:  Slave-boson, large N technique:  Y. Bang and G. Kotliar, Phys. Rev. B 48, 9898 (1993).
158. Fermi Liquid and Non fermi liquid phases of an extended Hubbard model in infinite dimensions:  Q. Si and G. Kotliar, Phys. Rev. Lett. 70, 3143-3146 (1993).
159. Mott transision in the d = infinite Hubbard Model at zero temperature:  X. Y. Zhang, M. Rozenberg, and G. Kotliar, Phys. Rev. Lett. 70, 1666-1669 (1993)
160. The Falicov Kimball model and the breaking of fermi liquid theory in infinite dimensions:  Q. Si, G. Kotliar, and A. Georges, Phys. Rev. B 46, 1261-1264 (1992).
161. Single particle and optical gaps in charge transfer insulators:  Y. Bang, C. Castellani, M. Grilli, G. Kotliar, R. Raimondi, and Z. Wang, Int. J. of Mod. Phys. 6, 531-545 (1992).
162. The Mott transition in infinite dimensions:  M. Rozenberg, X. Y. Zhang, and G. Kotliar, Phys. Rev. Lett. 69, 1236-1239 (1992).
163. Strong Coupling Limit of the Kondo Problem:  V. Dobrosavljevic and G. Kotliar, Phys. Rev. B. 46, 5366-5369 (1992).
164. Kondo Effect in Disordered Systems:  V. Dobrosavljevic, T. Kirkpatrick, and G. Kotliar, Phys. Rev. Lett. 69, 1113-1116 (1992).
165. Large N Expansion in the Strong Correlation Problem:  G. Kotliar, in Correlated Electron Systems (118-155), edited by V. J. Emery World Scientific 1993.
166. The Large N Expansion in the Strong Correlation Problem:  G. Kotliar, Les Houches Session LVI, 1991. B. Doucot and J Sinn-Justin,eds., Elsevier Sience B. 201-247 (1995).
167. Collective Excitations Photoemission Spectra and Optical Gaps in Strongly Correlated Fermi Systems:  C. Castellani, G. Kotliar, R. Raimondi, M. Grilli, Z. Wang and M. Rozenberg, Phys. Rev. Lett. 69, (2009-2012) (1992).
168. Strongly Correlated Copper Oxide Layers: Insights From the Large N Expansion:  G. Kotliar, Electronic Properties and Mechanisms of High Temperature  superconductors (167-180), Edited by T. Oguchi K. Kadowaki and T. Sasaki North Holland (1992).
169. The SU(N) t-J Model: Insights >From a 1/N Expansion:  G. Kotliar, Physica C 185, 1419-1420 (1991).
170. Superconductivity Phase separation and Charge trnasfer instability in the large N  limit of the three band model of the CuO₂ planes:  Y. Bang, C. Castellani, C. Di Castro, M. Grilli, G. Kotliar, and R. Raimondi, Physica C 185, 1525 (1991).
171. Collective Excitations and Spectral Function in the Fermi Liquid State of the t-J Model:  Z. Wang, Y. Bang, and G. Kotliar, Phys. Rev. Lett. 67, (1991) 2733-2736.
172. Strongly Correlated Systems in Infinite Dimensions and Their Zero Dimensional Counterparts:  A. Georges, G. Kotliar, and Q. Si, Int. J. of Mod. Phys. 6, 705-730 (1992).
173. Critical Behavior of the Hall Coefficient Near the Mobility Edge:  X. Wang, Z. Wang, G. Kotliar, and C. Castellani, Phys. Rev. Lett. 68, 2504-2507 (1992).
174. Hubbard Model in Infinite Dimensions:  A. Georges and G. Kotliar, Phys. Rev. B 45, 6479-6483 (1992).
175. Phase Separation in The Large-N limit of the t-J Model: M. Grilli, C. Castellani, and G. Kotliar, Phys. Rev. B 45, 10805-10807 (1992).
176. Kinetic Equation for Strongly Disordered Systems II: Interacting Electrons: G. Strinati, C. Castellani, C. Di Castro, and G. Kotliar, Phys. Rev. B 44, 6078-6089 (1991).
177. Gutzwiller projection for Bosons: D. Rokshar and G. Kotliar, Phys. Rev. B 44, 10328-10332 (1991).
178. Phase Separation, Charge Transfer Instability and Superconductivity in the three bands Extended Hubbard Model: Weak Coupling Theory Revisited:  Y. K. Bang, G. Kotliar, C. Castellani, M. Grilli, and R. Raimondi, Phys. Rev. B43, 13724-13727 (1991).
179. Quantum Monte Carlo Algorithm for Constrained Fermions with Applications to the Infinite U Hubbard Model:  X. Y. Zhang, E. Abrahams, and G. Kotliar, Phys. Rev. Lett. 66, 1236-1239 (1990).
180. Superconductivity, Phase separation and Charge Transfer Instability in the u equal infinity Limit of the Three Band Model of the CuO2 Planes:  M. Grilli, R. Raimondi, C. Castellani, C. Di Castro, and G. Kotliar, Phys. Rev. Lett. 67, 259-262 (1991).
181. Strong Correlation Transport and Coherence:  G. Kotliar, Int. J. of Mod. Phys. B 5, 341-352 (1991).
182. Long Wavelength Behavior, Impurity Scattering, Magnetic Excitations, and the Marginal Fermi Liquid:  G. Kotliar, E. Abrahams, A. Ruckenstein, C. Varma, P. Littlewood, and S. Schmitt-Rink, Europhys. Lett. 15, 655-660 (1991).
183. Phase separation and superconductivity in the large N limit of the extended multiband Hubbard Model: M. Grilli, R. Raimondi, C. Castellani, C. Di Castro, and G. Kotliar, Int. J. of Mod. Phys. B5, 309-321 (1991).
184. Flux density wave and superconducting instability of the staggered flux phase:  Z. Wang, G. Kotliar, and X. Wang, Phys. Rev. B 42, 8690-8693 (1990).
185. Mean Field Phase Diagram of the Two Band  t-J Model for CuO₂ Layers:  C. Castellani, M. Grilli, and G. Kotliar, Phys. Rev. B 43, 8000-8004 (1991).
186. Transport Phenomena Near the Mott Transition:  L. Ioffe and G. Kotliar, Phys. Rev. B. 42, 10348-10359 (1990).
187. Effects of Weak Disorder on Strongly Interacting Electron Systems: G. Kotliar and C.M. Varma, Physica A 167, 288-293 (1990).
188. The magnetic field crossover exponent problem revisited:  C. Castellani and G. Kotliar, Physica A 167, 294-300 (1990).
189. Crossover Exponent for a Weak Magnetic Field at the Localization Orthagonal Fixed Point:  M. Biafore, C. Castellani, and G. Kotliar, Nucl. Phys. B. 340, 617-632 (1990).
190. Mean Field Theories of Cuprate Superconductors: A Systematic Analysis: M. Grilli, G. Kotliar, and A. Millis, Phys. Rev. B 42, 329-341 (1990).
191. Fermi-Liquid parameters and Superconducting Instabilities of a generalized t-J Model:  M. Grilli and G. Kotliar, Phys. Rev. Lett. 64, 1170-1173 (1990).
192. Conductivity and Tunnelling Density of States Exponents at the Metal Insulator Transition with Strong Spin Orbit Scattering: G. Kotliar and S. Sorella, in Field Theory in Condensed Matter Physics, Z. Tesanovic, ed. Addison Wesley, (1990) 125-138.
193. Two Kondo Impurity Problem: A Large N Biased Review:  A. Millis, G. Kotliar, and B. Jones, in Field Theory in Condensed Matter Physics, Z. Tesanovic, ed. Addison Wesley, 159-166 (1990).
194. Optical Properties of Phases with Staggered Flux:  T. Dombre and G. Kotliar, Europhys. Lett. 10, 667-671 (1989).
195. Mean Field Analysis of Two Antiferromagnetically Coupled Anderson Impurities:  B. Jones, G. Kotliar, and A. Millis, Phys. Rev. B 39, 3415-3418 (1989).
196. Fermi Liquid and Non-Fermi Liquid Phases of the Extended Hubbard Model: G. Kotliar, in Springer Serier in Materials Sicence Vol 11, Mechanisms of High Temperature Superconductivity (61-67) . Editors H. Kamimura and A. Oshiyama. Springer Verlag Verlin Heidelberg (1989).
197. Possibility of the Vortex-Antivortex Transition Temperature of a Thin Film Superconductor Being Renormalized by the Disorder: A. Hebard and G. Kotliar, Phys. Rev. B 39, 4105-4109 (1989).
198. Instability of the Long Range RVB in the Mean Field Approach:  T. Dombre and G. Kotliar, Phys. Rev. B 39, 855-857 (1989).
199. Fermi Liquid versus Non Fermi Liquid Behavior in a Two Band Model of High Temperature Superconductivity:  C. Castellani and G. Kotliar, Phys. Rev. B 39, 2876-2879 (1989).
200. The Slave Boson Approach to the Extended Hubbard Models of High Temperature Superconductivity:  G. Kotliar, Int. J. of Mod. Phys. B 1, 711-719 (1988).
201. The Superexchange Mechanism and D Wave Superconductivity:  G. Kotliar and J. Liu, Phys. Rev. B 38, 5142-5145 (1988).
202. Fermi Liquid Description of La_2-xSr_xCuO₄: G. Kotliar, P. A. Lee, and N. Read, Physica C 153-158, 538-542 (1988).
203. Landau Fermi Liquid Theory for Disordered Systems and The Scaling Theory of The Metal Insulator Transition:  G. Kotliar, in Anderson Localization, T. Ando and H. Fukuyama editors Springer Proceedings in Physics 28, Springer Verlag (1988) (96-107).
204. Superconducting Instabilities in a Large-U Limit of a Generalized Hubbard Model: G. Kotliar and J. Liu, Phys. Rev. Lett. 61, 1784-1787 (1988).
205. Resonating Valence Bonds and D Wave Superconductivity:  G. Kotliar, Phys. Rev. B 37, 3664-3666 (1988).
206. Heat-transport Ward identity and effective Landau fermi-liquid parameters in disordered systems C. Castellani, C. Di.Castro, G. Kotliar, P. A. Lee, and G. Strinati, Phys. Rev. B 37, 9046-9048 (1988).
207. Fermi Liquid Theory of La_2-xSr_xCuO₄: Optical Properties:  P. A. Lee, G. Kotliar, and N. Read, Physica 148B, 247-277 (1987).
208. A New Correction to the Heat Balance Equation and its Influence on Velocity Selection in Dendritic Growth:  M. A. Lemieux and G. Kotliar, Phys. Rev. A36, 4975-4983 (1987).
209. Effect of Non-Equilibrium Kinetics on the Velocity Selection in Dendritic Growth:  M. A. Lemieux, J. Liu, and G. Kotliar, Phys. Rev. A36, 1849-1854 (1987).
210. Thermal Conductivity of Disordered Interacting Electron Systems:  C. Castellani, G. Kotliar, and P. A. Lee, Phys. Rev. Lett. 59, 477-480 (1987).
211. Fermi-Liquid Theory of Interacting Disordered systems and the Scaling Theory of the Metal Insulator Transition:  C. Castellani, G. Kotliar, and P. A. Lee, Phys. Rev. Lett. 59, 323-326 (1987).
212. Transport Coefficients Close to the Mobility Edge and Non-Linear Sigma-Model Composite Operators:  C. Castellani and G. Kotliar, Phys. Rev. B 36, 7407-7416 (1987).
213. Asymptotic Expansion of the Full Non-Local Solidification Problem:  W. Van Sarloos, J. Weeks, and G. Kotliar, Phys. Rev. A 35, 2288-2292 (1987).
214. Random and Non-Random Anisotropy Induced Crossover in Vector Spin Glasses:  G. Kotliar, Phys. Rev. B 35, 8646-8651 (1987).
215. Rotational Symmetry Breaking in Heisenberg Spin Glasses: A Microscopic Approach:  G. Kotliar, H. Sompolinsky, and A. Zippelius, Phys. Rev. B 35, 311-328 (1987).
216. Relation Between the Conductivity, the Ultrasonic Attenuation and Non-Linear  Sigma-Model Composite Operators at the Anderson Transition:  C. Castellani, and G. Kotliar, Phys. Rev. B 34, 9012-9014 (1986).
217. A New Functional Integral Approach to Strongly Correlated Fermi Systems: The Gutzwiller Approximation as a Saddle Point:  G. Kotliar and A. Ruckenstein, Phys. Rev. Lett. 57, 1362-1365 (1986).
218. Dephasing Time in Disordered Systems:  C. Castellani, C. DiCastro, G. Kotliar, and P. A. Lee, Phys. Rev. Lett. 56, 1179-1182 (1986).
219. Anderson Localization and the Theory of Dirty Superconductors II:  G. Kotliar and A. Kapitulnik, Phys. Rev. B 33, 3146-3157 (1986).
220. Pattern Selection in a Boundary Layer Model of Dendritic Growth in the Presence of Impurities:  A. Karma and G. Kotliar, Phys. Rev. A 31, 3266-3275 (1985).
221. Anderson Localization and the Theory of Dirty Superconductors:  A. Kapitulnik and G. Kotliar, Phys. Rev. Lett. 54, 473-476 (1985).
222. Ultrasonic Attenuation in Strongly Disordered Electronic Systems:  G. Kotliar, and T. V. Ramakrishnan, Phys. Rev. B 31, 8188-8195 (1985).
223. Pattern Selection in Dendritic Solidification:  E. Ben Jacob, N. Goldenfeld, G. Kotliar, and J. S. Langer, Phys. Rev. Lett. 53, 2110-2113 (1984).
224. Phase Transition in a Dzyaloshinskii-Moriya Spin Glass:  G. Kotliar, and H. Sompolinsky, Phys. Rev. Lett. 53, 1751-1754 (1984).
225. Exchange Stiffness and Macroscopic Anisotropy in Heisenberg Spin Glasses: H. Sompolinsky, G. Kotliar, and A. Zippelius, Phys. Rev. B 52, 394-395 (1984).
226. One-Dimensional Spin Glass Model with Long Range Random Interactions:  G. Kotliar, P. W. Anderson, and D. L. Stein, Phys. Rev. B 27, 602-605 (1983).
227. Nonlinear Sigma Model and CP(n-1) AT 2+e Dimensions: D. J. Amit, and G. Kotliar, Nuclear Physics B 170, 187-210 (1980).