Citizenship: USA

Address:

SerinPhysicsLaboratory
Rutgers University
Piscataway, NJ08854

 

Education:

Ph.D., Physics, Princeton University 1983
Title: Random models with long range interactions.
Supervisor: Professor P. W. Anderson
M.Sc., Physics, Hebrew University 1980
B.Sc., Physics and Mathematics, Hebrew University 1979 

 

Positions:

Postdoctoral fellow, Institute for Theoretical Physics
University of California, Santa Barbara                                                  1983 - 1985
Assistant Professor, Massachusetts Institute of Technology                    1985 - 1988
Associate Professor, Rutgers University                                                1988 - 1992
Professor I, Rutgers University                                                              1992 - 1996
Professor II, Rutgers University                                                             1996 - Present 

 

Honors, Awards:

Alfred P. Sloan Research Fellow 1986-1988
Presidential Young Investigator Award 1987-1992
Lady Davies Fellowship1994-1995
Fellow American Physical society  (2001)

Graduate School Teaching Award (2002)

Guggenheim Fellow: (2003)

Board of Governors Professor   (2004)

Blaise Pascal Chair (2005-2006)

Agilent Technologies Europhysics Prize for Outstanding Achievement in Condensed Matter Physics (2006)

         

Other Professional Activities:

• Member of international advisory committee of the international conference on heavy electrons,  Sept. 17 to 20, 2010  Tokyo Metropolitan University
• Member of the advisory committee Psik - Conference 2010,  Germany, September 12 - 16, 2010 http://www.fhi-berlin.mpg.de/th/Meetings/psik_2010/ 
• Member of the International Advisory  Committee of the 2010 International Conference on Strongly Correlated Electron Systems (SCES2010) June 27 -July 2. (2010) Santa Fe New Mexico.
• Coeditor Europhysics Letters (May  2006-  May 2010)
• Coordinator of Kavli Institute for Theoretical Physics Program Towards Material Design Using Strongly Correlated Electron Systems January 5, 2010 - March 12, 2010
• Member of the Advisory Board for Europhysics Letters (2010)
• Member of the international advisory board for M2S (International Conference on Materials and Mechanisms of Superconductivity) Tokyo, September 7-12, 2009.
• Break Session Leader BES/ASCR   DOE workshop , "Discovery in Basic Energy Sciences: The Role of Computing at the Extreme Scale." August 2009.
• Member of the International Advisory Board of the International Conference on Magnetism ICM 09 Karlsruhe July 27-31 (2009).
• Member of the International  Advisory Committee of the 2008 International Conference on Strongly Correlated Electron Systems (SCES'08). Armacao dos Buzios, Rio de Janeiro, from August 17-22nd (2008).
• Member of the organizing committee for the  International Workshop of First Principles Methods for Strongly Correlated Materials, Weihai, Shandong, China,  July 6 to 10, 2008.
• Elected Member to the Canadian Institute for Advance Research (CIFAR) 2008-2012
• Member of the International  Advisory Committee of the 2007 International Conference on Strongly  Correlated Electron Systems (SCES'07). May 13-18, 2007, Houston.
• International Advisory Committee (IAC) of International Conference on Magnetism (ICM) to be held on August 20-25, 2006 (Kyoto).
• Organizing Committee for the First International workshop on the physical properties of lamellar cobaltates July 16-20 (2006) Orsay
• International Advisory Comittee for:  Plutonium Futures - The Science 2006, Asilomar Conference Grounds, Pacific Grove, California, July 9-13, 2006.
• General Member of the Aspen Center for Pysics (2006).
• International Advisory Committee of the Psi-k 2005 Conference, September 17-21, 2005, Schwaebisch Gmuend, Germany.
• Panelist: NSF  MPS  Theory Workshop, October 27-28, National Science Foundation, Arlington, Virginia (2004). 
• Consultant Los Alamos National Laboratories (2003-present).
• Organizer: ITP Workshop on Realistic Treatment of Correlation Effects in Solids (July-December 2002).
• Coordinator a summer school on Dynamical Mean Field Theory for electronic structure calculations, Trieste, 17-21 June (2002).
• Organizer: Lorentz Institute Workshop on Realistic Treatment of Correlation Effects in Solids, Leiden (November 12-23, 2001).
• Workshop Organizer: the Physics of Plutonium, Los Alamos National Lab, Los Alamos NM, July 14-17 (2001).
• Member: International Advisory Board for EASTMAG (Euro-Asian Symposium on Trends in Magnetism, Ekaterinburg, Russia) February, 2001.
• Director: XII Workshop on strongly correlated electron systems, ICTP, Miramare, Trieste (17 - 28 July 2000).
• Member of the Organizing Committee XII Trieste Workshop on Open Problems in Strongly Correlated Electron Systems, July 2000, Trieste, Italy.
• Director: Workshop on Correlation Effects in Electronic Structure Calculations (12 - 23 June 2000) ICPT, Trieste, Italy.
• Conference Organizer: Prospects of a Realistic Description of Strong Electron Correlations in Solids, October 2-6, 1999, Prague, Czech Republic.
• Coordinator: XI Trieste Workshop on Open Problems in Strongly Correlated Electron Systems, July 1999, Trieste, Italy.
• Coordinator:  X Trieste Workshop on Open Problems in Strongly Correlated Electron Systems, July 1998, Trieste Italy.
• Advisory Committee: for the international workshop on Computational Approaches to Electronic Correlations in Solids. Dresden, Germany, May 25-29 (1998).
• Editor (with D. D. Sarma and Y. Tokura) for “Monographs in Condensed Matter Science” a book series of Gordon and Breach Publisher (1997)
• Member: International Advisory Board for the Research Center of Crete FORTH-IESL (Greece) 1996-2000.
• Associate Editor of Physical Review Letters 1996-1997.
• Consultant Los Alamos National Laboratories (1991-1998). 
• Consultant ATT Bell Labs (1988-1997).
• Member of the American Physical Society 1981- present. 
• Member of the International Advisory Board for the Max-Planck-Institute fuer Chemische Physik fester Stoffe in Dresden.
• Conference Organizer: CECAM Workshops on Electronic Properties of Strongly Correlated Systems: from the Local Density Approximation to the Dynamical Mean Field Theory, July 25-27.

Talks at National and International Conferences:

1. Towards an ab-initio theory of correlated materials. The challenge of the iron pnictides, Royal Holloway University of London, July 5-30, 2010
2. Towards an ab-initio theory of correlated materials.The challenge of the copper oxides, Royal Holloway University of London, July 5-30, 2010
3. Understanding and Predicting Properties of f-electron materials using DMFT , The Third International Workshop, Dresden, May 25-28, 2010
4. Quantifying the correlation strength of the iron pnictides and the copper oxide superconductors : an LDA + DMFT approach, Edge Topics in Correlated Materials International Conference, May 17-19, 2010.
5. Hidden Order and Kondo Effect in URu2Si2, CIFAR Quantum Materials Program Meeting, Montreal, April 2010.
6. Dynamical Mean Field Theory (DMFT) Approach to Correlated Solids Conference on Computation Physics (CCP 2009), Kaohsiung, Taiwan, December 15-19, 2009
7. First Principles Studies of Electronic Structure of Correlated Materials, in KITP Conference, From Basic Concepts to Real Materials .  November 02 - 06, 2009, http://www.kitp.ucsb.edu/activities/auto/?id=982
8. Understanding Heavy Fermions Using Dynamical Mean Field Theory in ``Current Perspectives in Strongly-Correlated Quantum Matter'', College de France. Paris October 9 (2009).
9. Towards a first Principles Electronic Structure Method Based on Dynamical Mean Field Theory, Montauk Long Island, September 13-17, 2009
10. Tuning the localization delocalization  using f elements.  Actinides 2009 International Conference, San Francisco, CA, USA, July 12 - 17, (2009)
11. Dynamical  Mean Field Theory Approach to the Electronic Structure Problem: the Middle Way American Chemical Society Meeting, Washington DC, August 2009
12. High Temperature Superconductors,Insights from Dynamical Mean Field Theory (DMFT) Plenary Talk  in the 9^th International Conference on Materials and Mechanisms of Superconductivity M²S , Tokyo, Japan, September 7-12, 2009
13. Towards a first Principles  Electronic Structure Method Based on Dynamical Mean Field Theory in Workshop on Frontiers of Density Functional Theory, Montauk Long Island  September 13-17, 2009
14. Dynamical Mean Field Theory (DMFT) and the many body problem,  Many Body Theory RPMBT15, Ohio State University, Columbus, Ohio from July 27-31, 2009
15. Correlated Superconductivity in the Coppper  Copper Oxide Planes a cluster DMFT prerspective in KITP Conference on Critical Issues Related to Higher Temperature Superconductors  conference, June 22 - 26, 2009
16. URu2Si2  the Hidden Order Mystery, Workshop on  Strongly Correlated Quantum Phases,  Technion Haifa, Israel 14-18th June, 2009
17. Strong Correlations and Superconductivity : System Specific Studies usinf DMFT : International Workshop on the Search for New Superconductors  Frontier and Future http://www.jst.go.jp/kisoken/htsc/jpn-us_ws/WStop.html, Shonan Village Center (SVC) May 12-16, 2009.
18. Finding Mottness in Unexpected Places: the  Two-Dimensional  Metal to Insulator Transition in Mosfets and Heterostructures. Quantum Critical Phenomena and Novel Phases in Superclean Materials,  Honolulu  Hawai, January 10-13, 2009
19. Iron Pnictides: are they strongly correlated  electron compounds ? Iron-based HiTC Superconductors Workshop, Princeton, November 13-14, 2008    
20. Correlated Superconductivity : Cuprates vs Pnictides, in Cuprates III Joint Workshop of the MPI-FKF Stuttgart,  Rinberg,  November 3-7, 2008
21. Theory of the iron actinide superconductors,  in theory panel discussion in ICAM Meeting on FeAs, Maryland, Nov 15-17, 2008
22. Properties and Applications of Thermoelectric Materials, ARW Workshop, Hvar, Croatia, September 20 - 24, 2008
23. Prospects for material design using correlated electron materials, Conference on Concepts in Electron Correlation, Hvar, Croatia September 24 - 30,  2008   
24. Materials Design Using Correlated Electron Systems: the Dynamical Mean Field Theory Strategy, Functional Materials by Design DSRC/DARPA Workshop, Arlington, Virginia, August 13-14, 2008
25.   LDA + DMFT : past, present and future, International Workshop of First Principles Methods for Strongly Correlated Materials,  Weihai, Shandong, China, July 6 to 10, 2008 
26. Heavy Fermions : a DMFT Perspective, International Conference on Recent Progress in Many Body Theories, Ohio State University, July 27, 2010
27. Strong Correlations in the late Actinides: Testing the DMFT methodology, The second international workshop on the dual nature of f electrons,  Santa Fe Bishops Lodge, June 28-July 1st, 2008
28. Strongly Correlated  Superconductivity: a CDMFT  Perspective, Gordon Research Conference on Strongly Correlated Electron Systems, Biddeford ME,  June 8-13, 2008
29.  Electronic Structure of Strongly Correlated Electron Systems: A Dynamical Mean Field Theory Perspective XXXI Encontro Nacional de Fisica da MateriaCondensada,  Aguas di Lindoia Brazil May 5-9, 2008
30. Dynamical Mean Field Theory of the Actinides. 2008 MRS SPRING MEETING. San Francisco, CA.  March 24-28, 2008
31. Strongly Correlated d-wave Superconductivity: a CDMFT  Perspective.  APS March Meeting, New Orleans. March 10-14th, 2008
32. First Principles Investigations of Plutonium Americium and their Mixtures using   Dynamical Mean Field Theory (DMFT). NNSA Symposium. Washington DC. February  25-27 (2008)
33.  Comments on Strongly Correlated Electronic Oxides (CEO) from a   Dynamical Mean Field Theory (DMFT) perspective, Correlated Electronic Oxides (CEO) Workshop. FDIC William Seidman Center, Arlington, VA. February 13-14, 2008
34. Conference Summary: Theory in Conductor Insulator Quantum Phase Transition. am ICAM exploratory workshop. Jan 11, 2008
35. Finding Mott Physics in Unexpected  Places: a DMFT perspective. In ICAM  Meeting on Conductor Insulator Quantum Phase Transitions. Ohio State University. January 9-11, 2008
36. Ab-initio theory of  the electronic  structure of strongly correlated materials: examples from across the periodic table. COE 21 Workshop Applied Physics on Strong Correlation. Tokyo, Japan. September 27-29, 2007
37. Dynamical Mean Field Theory (DMFT)  of correlated solids. Gordon Research Conference on Solid State Chemistry II. Magdalen College Oxford United Kingdom. September 2-7, 2007 
38. Optical Conductivity of Cuprates Superconductors: a Dynamical RVB perspective. “Optics sumrule” Conference Roma March 7, 2007
39. Superconductivity near the Mott transition a Cluster Dynamical Mean Field Theory (CDMFT) perspective. Coherence and incoherence in stronly correlated systems.  Rome, Italy. July 3-7, 2007
40. Introduction to  Dynamical Mean Field Theory  (DMFT) and its Applications to the Electronic Structure of Correlated Materials. Zacatecas Mexico PASSI School. Montauk  June (2006)
41. ARPES for f-electrons Issues and Prospects. International Seminar on Strong Correlations and Angle-Resolved Photoemission Spectroscopy Dresden May 2, 2007
42. First Principles Investigations of Plutonium Americium and their Mixtures using Dynamical Mean Field Theory.  Washington  February  5-8 (2007)
43. Dynamical RVB: Cluster Dynamical Mean Field Studies of Doped Mott Insulators, Statistical Mechanics Meeting  Rutgers University December 17,2006
44. Some Applications of Dynamical Mean Field Theory  (DMFT). Density Functional Theory Meets Strong Correlation. Montauk September  5-9 (2006).
45. Dynamical Mean Field Approach to strongly Correlated Electrons. Cosener house , Abingdon, Oxfordhisre, UK, August 3-4 (2006)
46. Dynamical RVB: Cluster Dynamical Mean Field Studies of Doped Mott Insulators. 8th International Conference on Materials and Mechanisms of Superconductivity (M2S-HTSC VIII), Dresden, Germany, July 11-25, 2006
47. Correlations Magnetism and Structure across the actinide series : a Dynamical Mean Field Theory Perspective . Asilomar Conference Grounds,  USAPu Futures - The Science, Pacific Grove, California, July 9-13, 2006
48. Cellular DMFT studies of the doped Mott insulator. Eleventh Itzykson Meeting in theoretical physics and the SPhT CEA Saclay , Paris, France, June 21-23, 2006
49. Dynamical RVB: Cluster Dynamical Mean Field Studies of Doped Mott Insulators.  Itzykson Meeting  2006, Strongly Correlated Electrons. CEA Saclay, France, June 21-23, 2006
50. Correlations Magnetism and Structure across the actinide series. IWOSMA-3 (International Workshop on Orbital and Spin Magnetism of Actinides), CECAM in Lyon, June 1-2, 2006
51. Challenges in Strongly Correlated Electron Systems: A Dynamical Mean Field Theory Perspective. EPS 21st General Conference of the Condensed matter Division and DPG Spring Meeting. Dresden, Germany, March 26 - 31 (2006)
52. Electronic Structure of Strongly Correlated Materials:Insights from Dynamical Mean Field Theory (DMFT). GEFES IV Reunion Nacional de Fsica del Estado Solido, Alicante, Spain, February 1-3 (2006).
53. Cellular DMFT studies of the doped Mott insulator. Gordon Research Conference  on Superconductivity, Buellton, California, January 22-27  (2006).
54. Localization Delocalization Phenomena across the Mott transition:cracking open the f shell, Miniworkshop on Actinides: Experiments and Theory,  Karlsruhe, Germany, December 3-6 (2006).
55. Atelier on Rare earth and Actinides workshop on electron spectroscopy and correlation, Soleil, Saint-Aubin, France, 3 – 4 November (2005).
56. Dynamical Mean Field Theory: A First Principles Approach to the Electronic Structure of Correlated Materials.
    Indo-US Conference on Novel and Complex Materials, Kolkata, October 26-29 (2005).
57. Dynamical Mean Field Theory (DMFT) approach to many body effects in electronic structure. Psi_k Conference Schwabisch Gmund, Germany Sept17-21 (2005).
58. CDMFT study of the Mott transition.   PITP Mini-Workshop on Quantum Cluster Methods for Correlated Materials, (Organizers Andre Marie  Tremblay and George Sawatzky)  Sherbrooke   Quebec  July 6-8 (2005).
59. Dynamical Mean Field Theories: Some Formal Aspects.   PITP Mini-Workshop on Quantum Cluster Methods for Correlated Materials, (Organizers Andre Marie  Tremblay and George Sawatzky)  Sherbrooke   Quebec  July 6-8 (2005).
60. Extensions of Single Site DMFT and its Applications to Correlated Materials. Workshop on Quantum Materials, Heron Island Resort, New Queensland, Australia, 1-4 June 2005.
61. Introduction to Strongly Correlated Electron  Materials and to Dynamical Mean Field Theory (DMFT). Workshop on Quantum Materials, Heron Island Resort, New Queensland, Australia, 1-4 June 2005.
62. Dynamical Mean-Field Studies of the Actinide Series. Workshop on Correlated Electron Effects for Anomalous Properties of Elemental Actinides, 23 May 2005.
63. The Mott Transition and the Challenge of Strongly Correlated Electron Systems. PIPT Showcase Conference, UBC Vancouver, May 12th  2005.
64. Dynamical Mean Field Theory Approach to Strongly Correlated Materials. Sanibel Symposium, St Simons Island, Georgia. March 6-11 2005.
65. Dynamical Mean Field Theory and Electronic Structure Calculations of Correlated Materials. PCCM Workshop on Strongly Correlated Materials. Princeton University January 27th -28th (2005)
66. Realistic DMFT calculations of f-electron systems using Dynamical Mean Field Theory. Workshop “Electronic Structure of Correlated Materials”, f-electron network (8-10 December in Paris).
67. Superconductivity and NormalState Near the Mott Transition, a Cellular Dynamical Mean Field (CDMFT) Perspective.Nov 21-24 (2004) Third Asian-Pacific Workshop on   Strongly Correlated Electron systems.
68. Dynamical Mean Field Theory and Electronic Structure Calculations. In YKIS2004 “Physics of Strongly Correlated Electron Systems”,Yukawa Institute for Theoretical Physics, Kyoto University, Kyoto, Japan Nov.17 – 20, 2004. 
69. Mott transition across the actinide series: DMFT studies of Plutonium and Americium, Advanced Light Source User Meeting –Actinide Workshop, Berkeley, California, October 18-19 (2004).
70. Strongly Correlated Electron Systems a Dynamical Mean Field Perspective Institute for Complex Adaptive Matter meeting: Frontiers in Correlated Matter, Snowmass,  September, 2004.
71. Strongly Correlated Electron Systems a Dynamical Mean Field Perspective 5^th International Conference on Inelastic X-Ray Scattering. Argonne National Labs, Chicago, September 20, 2004.
72. Towards an Electronic Structure Method for Correlated Electron Systems: based on Dynamical Mean Field Theory, Second International Workshop, 2004, Ordering Phenomena in Transition Metal Oxides, September 26 - 29, 2004, Wildbad Kreuth.
73. Dynamical Mean Field Theory (DMFT) Approach to Strongly Correlated Materials, SCES04, July 26-31 (2004) Karlsruhe, Germany.
74. Optical Properties of Strongly Correlated Electrons: A Dynamical Mean Field Approach Low Energy Electrodynamics of Solids. Kolster Banz, 18-23 July (2004).
75. Introduction to Session on: Quantum Criticality and Fractionalized Phases. Grodon Research Conference on Correlated Electrons, 2004.
76. Dynamical Mean Field Theory of Correlated Materials. Condensed Matter and Materials Physics CMMP04, 4-7 April, 2004, University of Warwick.
77. Dynamical Mean Field Theory and Electronic Structure Calculations Anual Meeting of the German Physical Society, Regensburg, 29 March - April 1^st, 2004.
78. The Mott transition in transition metal oxides and in organic materials: a dynamical mean field perspective. 2004 The 8^th (Asia Pacific center for Theoretical Physics) APCTP Winter workshop on Strongly Correlated Electron Systems.PhoenixPark, February 16-20, Korea.
79. Annual APS March Meeting 2004, March 22-26 (2004) Montreal, Quebec, Canada.
80. 90^th statistical mechanics conference. Rutgers University, Hill center, room 114, December 14-16, 2003.
81. Electronic Structure of Elemental Plutonium: A Dynamical Mean Field Perspective (DMFT), in Materials Research Society Meeting, Boston, December (2003).
82. Towards First-Principles Electronic Structure Calculations of Correlated Materials Using Dynamical Mean Field Theory (DMFT). CMSN-Workshop on Predictive Capabilities for Strongly Correlated Systems, UT, November 7-9, 2003.
83. Applications of DMFT to actinide materials in Highlights in the theory of actinides and f-electrons. Actinide User Laboratory Workshop, 31 March - 1April, 2003. Institute for Transuranic Elements, Karlsruhe, Germany.
84. RKKY vs Kondo what we do not understand. Contribution to a session of ICAM. Workshop on Quantum Criticality, ColumbiaUniversity, 20-23 March, 2003.
85. The Mott transition in f-electron systems: Plutonium, a Dynamical Mean Field Perspective. ASR2002 Tokaimura, Japan, November 12-14, 2002.
86. IWOSMA2, Dynamical Mean Field Theory of Metallic Plutonium.Berkeley, October 13-15, 2002.
87. Correlation Effects in Itinerant Magnets: Towards a Realistic Dynamical Mean Field Approach in Electronic Structure and Computational Magnetism. WashingtonDC, July15-17 (2002). 
88. Electronic Structure of Correlated Materials: a DMFT Perspective in Realistic Theories. Gordon Research Conference on Correlated Electrons, June 29-July 3^rd, 2002.
89. Comments on realistic calculations using DMFT  in  Dynamical Mean Field Theory for electronic structure calculations,17-21 June, Trieste, 2002.
90. Dynamical Mean Field Approach to Strongly Correlated Electrons in Field Theory and Statistical Mechanics, Rome, 10-15 June.
91. Electronic Structure of Strongly Correlated Materials: a DMFT Perspective, Festschrift in celebration of Peter Wolfle’s birthday, KarlsruheApril 28 2002 in “Strong Correlation and Disorder: Modern Aspects of Condensed Matter Theory” (April 25-26, 2002Karlsruhe).
92. Extending the scope of dynamical mean field methods in Workshop on Correlation Effects in Electronic Structure Calculations, Leiden, November 12^th-Nov 23^rd (2001).
93. Dynamical Mean Field Theory and Electronic Structure Calculations. Landelijk Seminarium voor Vaste Stof Fysica (Friday 16, November 2001) University of Nijmegen.
94. Realistic Dynamical Mean Field Theory: From the Mott transition to itinerant ferromagnetism.Kanizawa Symposium, October 1^st -4^th, 2001. 
95. Dynamical Mean Field Theory of Delta Plutonium, in Strongly Correlated Electron Systems (SCES 2001)Ann ArborMichigan, August 6-10, 2001. 
96. Overview of the Dynamical Mean Field Method and its extensions, in Electronic Properties of Strongly Correlated Systems: from the Local Density Approximation to the Dynamical Mean Field Theory. CECAM, Lyon, July 25-27, 2001.
97. Plutonium as a correlated metal. Opening address in the workshop on the Physics of Plutonium. Los Alamos National Lab, Los Alamos, NM, July 14-17 (2001).
98. Dynamical Mean Field Theory of Correlated Systems: from model Hamiltonians Studies of the Mott Transition to first-principles calculations of real materials.  Recent Progress in Many Body Theory-11UMIST,Manchester, UK, 9 to 13 July, 2001.
99. Spectral Density Functional: a first principles approach to the electronic structure of correlated solids.  JRCATS-CERC Workshop on Phase Control, Maui island, Hawaii, June 6- June 9 (2001). 
100. Theoretical Treatments of Correlation Effects Workshop on Chemical Physics of Emerging Materials. Schloss Rinberg, May 29^th, 2001(Ringberg, 28.05.01-01.06.01).
101. Dynamical Mean Field Theory of Materials near a Mott transition, March Meeting of the American Physical Society, March 12 - 16, Seattle, 2001. 
102. Theory of delta Plutonium in The Physics of f-Electrons.(Daresbury, UK, April 6-8, 2001).
103. Dynamical Mean Field Theory in Electronic Structure Calculations: Applications to solids with f and d electrons. X International Workshop on Computational Material Science and Total Energy and Force Method,11-13 January, 2001, Trieste, Italy.
104. Theory of the Electronic Structure of Correlated Materials in Workshop on Opportunities in Materials Theory 2000 Organized by the National Science Foundation,WashingtonDC, October 4-6, 2000.
105. Dynamical mean field theory and its applications to strongly correlated fermions.GDR Systemes Fortement Corrélés: Interactions and Mesoscopic Physics, Aussois, France, September 25-28, 2000.
106. Theory of Delta Plutonium. Journees des Actinides, May 4 - 6, 2000 in DresdenGermany.
107. From Model Hamiltonians to Electronic Structure Calculations. 8^th General Conference of the Condensed Matter Division of the European Physical Society, Montreux, Switzerland.
108. Strongly correlated electrons: a dynamical mean field perspective. Conference anniversaire du LPT-ENS, Paris, France, 29 - 31 May, 2000.
109. Theory of  Delta-Plutonium, in the 5^th Prague Colloquium on f electron systems. Prague (March 9-11, 2000).
110. Strongly Correlated Electrons: a Dynamical Mean Field Perspective.NATO Advanced Workshops: Open Problems in Strongly Correlated Electron Systems, 26-30 April, 2000, Bled, Slovenia.
111. Dynamical Mean Field Theory of the Mott transition in the NATO ASI/EC Summer School: New Theoretical Approaches to Strongly Correlated Systems at Isaac Newton Institute for Mathematical Sciences, 10 - 20 April (2000) Cambridge, England.
112. The Mott transition problem: Dynamical Mean Field Theory and Transition Metal Compounds in Aspen Winter Conference on Condensed Matter Physics: 50 years of Condensed Matter Physics.  In honor of P.W. Anderson (January 9-15, 2000)
113. Landau Theory of the Mott Transition Application to V₂O₃ and NiSe_2-x S_x .The fourth Butsuko Symposium on Phase Control in Spin-Charge-Photon Coupled Systems. November 24-25 (1999) Tokyo, Japan. 
114. Heat and charge transport in strongly correlated electron systems: thermopower near the concentration driven Mott transitions and near ordinary quantum quantum critical points.  Workshop on Spectroscopy of Spin Charge Photon Coupled Systems, Tokyo, November 26, 1999.
115. Dynamical Mean Field Theory of the Mott Transition. International Conference on Statistical Mechanics and Strongly Correlated Systems, University of Rome “La Sapienza”, Italy, 27-29 September, 1999.
116. Dynamical Mean Field Theory and Electronic Structure Calculations in US-CzechRepublic. Workshop on Prospects of a Realistic Description of Strong Electron Correlations in Solids, October 2-6, Prague, 1999.
117. Finite Temperature Extensions of the Brinkman Rice Theory in Physics and Chemistry of Novel Materials: Strongly Correlated Electron Systems. Monte Verita, Switzerland, June 6^th -11^th, (1999).
118. Dynamical Mean Field Approach to Correlated Electron Systems Workshop on Theoretical Methods for Strongly Correlated Fermions. Centre de Recherches Mathematiques, Montreal, Canada, May 26-30 (1999)
119. Non Fermi Liquid Behavior in Disordered Kondo Lattices Invited Talk at the Centennial Meeting of the American Physical Society. AtlantaGeorgia, March 20^th- March 26^th  (1999).
120. Localization Transitions in V₂O₃ and NiSeS and other Systems.Many Body Physics Workshop hosted by CMS Los Alamos National Laboratory, Los Alamo, New Mexico, August 24 - 27 (1998).
121. The Mott Transition in Oxides and Sulfides: Insights from Dynamical Mean Field Theory. Workshop on Poorly Conducting Metallic Oxides, Argonne National Laboratory, June 10-12 (1998).
122. Workshop Summary Trieste98 Workshop. Trieste, July 20-31 (1998) Trieste, Italy.
123. New Insights into the Mott Transition Problem in Three Dimensional Transition Metal Oxides Strongly Correlated Electron Systems conference, July 15-18 (1998) Paris, France.
124. The Mott Transition in Ruthenates and Titanites: What can we understand using dynamical mean field theory in Physics of Manganites, Ruthenatesand Related Materials Workshop. National Magnetic Field Laboratory Tallahassee, November 9-11, 1997.
125. Applications of Dynamical Mean Field Theory to d- and f-Electrons,Los Alamos, Many Body Theory Workshop, August 18-19, 1997, Los Alamos, New Mexico.
126. Dynamical Mean Field Theory to the Metal to Insulator Transition. Royal Society Meeting on the Metal -Non Metal Transition in Macroscopic and Microscopic Systems, March 5-6 1997, London, England.
127. The Mott Transition in Orbitally Degenerate Systems. JCRCAT Workshop on Spin-Charge -Lattice Coupled Phenomena in Perovskites, May 28-31 (1996) Tsukuba, Japan.
128. The Mott Transition: Recent Theoretical and Experimental Developments.75^th Statistical Mechanics Conference, May 9 and 10, RutgersUniversity (1996).
129. The Mott Transition: Recent Theoretical and Experimental Developments.Pacific Conference on Condensed Matter Theory: Complex Materials and Strongly Correlated Systems, December2-5 1995, Seoul, Korea.
130. Strongly Correlated Electrons: Views From Mean Field Theory. International Euroconference on Magnetic Correlations, Metal-Insulator Transitions and Superconductivity in Novel Materials. Groningen8-13^th October 1995.
131. Mean Field Theories of Strongly Correlated Electrons. Euroconference on Dynamic properties in novel Superconductors (May 8-12, 1995) at ISI, Torino.
132. Correlated Electrons in Infinite Dimensions: Exact results and Some Surprises Florida.Conference on Quantum Impurity Models, February 14 -26, 1995.
133. Spectral Functions of Strongly Correlated Electrons in the Single Impurity Local Approximation. Stanford Conference on Spectroscopes in Novel Superconductors, March 15-18, 1995.
134. The Mott Transition: Recent Theoretical and Experimental Developments.17^thTaniguchi Symposium, Japan, October 23^rd - October 30^th, 1994.
135. The Breakdown of Fermi Liquid Theory in Strongly Correlated Electron Systems.Euroconference on Cross Over Phenomena in SolidState Physics: From Weak to Strong Coupling in Electronic Systems, September, 1994.
136. Correlated Metals and Insulators in Infinite Dimensions. Invited Talk at the Division of Condensed Matter Meeting of the American Physical Society, Pittsburg, March 21-25, 1994.
137. The Mean Field Theory of Strongly Correlated Electrons and the Mott Transition. Aspen Winter Conference on Strongly Correlated Electrons. AspenColorado, January 9^th -15^th, 1994.
138. The Metal Insulator Transition. “Strongly Correlated Electronic Materials: The Los Alamos Symposium 1993”, December 15-18, 1993.
139. The Metal Insulator Transition in Clean and Disordered Systems: What does mean field theory predict? International Conference on Superconductivity and Strongly Correlated Electron Systems. Amalfi, Italy, October 14-16, 1992.
140. The Hubbard Model in Large Dimensions. The Physics and the Mathematical Physics of The Hubbard Model, San Sebastian, October 4-8 (1993).
141. The Mott Transition in Transition Metal OxidesWorkshop on Strongly Correlated Electronic Systems. Los Alamos National Laboratory, August 30^th- September 3^rd.
142. The Mott Transition in Disordered Systems Workshop on Electronic Properties of Disordered Systems, August 23-27, 1993, Argonne National Laboratory.
143. 13^th The Mott transition, recent theoretical and experimental developments.Physics of Magnetism 93 strongly correlated electron systems, June 21-24, Poznan, Poland.
144. Anomalous Dimensions Quantum Chemistry and the Breakdown of Fermi Liquid Theory in Correlated Electrons, 13^th General Conference of the Condensed Matter division European Physical Society and the Deutsche Physikalische Gesellschaft, Regernsburg, March 29 - April 2 (1993).
145. Local Moment Formation in Disordered Systems.Gordon Research Conference on Condensed Matter, August 17^th -Aug 21^st, Wolfeboro, New Hampshire.
146. Strongly Correlated Fermions in Infinite Dimensions. Conference on Quantum Phase Transitions. Santa Barbara, June 28-July 3, 1992.
147. Strongly Correlated Systems in Infinite Dimensions, 67^th Statistical Mechanics Meeting, May 13-15 1992, Rutgers University, N.J.
148. Strongly Correlated Systems in Infinite Dimensions and Their Zero Dimensional Counterparts. Adriatico Research Conference on Open Problems in Strongly Interacting Electron Systems, July 9-12, 1991.
149. Strongly Correlated Copper Oxide Layers Applications of the Large N Techniques, International Workshop on Electronic Properties and Mechanisms in high-Tc Superconductors, July 29-31, 1991, Tsukuba, Japan.
150. Strong Correlation Transport and Coherence: Views from the Large N Expansion. M2S-HTSCIII, Karazawa, Japan.
151. Quantum Monte Carlo Infinite U Fermion Systems. Electronic Structure 91, Ithaca, June 1-3, 1991.
152. Charge Transfer Instability Phase Separation and superconductivity in the Three Band Model of the Copper Oxides, International conference: High Temperature Superconductivity, Concept Models and Methods, Torino, November 27-30, 1990.
153. Transport and Coherence in Strongly Correlated Systems. Adriatico Research Conference on Strongly Correlated Electron Systems, July 18-21, 1990.
154. Pedagogical Introduction to the Uses of the Large N Expansion in the Strong Correlation Problem, series of lectures presented at the International Workshop on Strongly Correlated Systems, Trieste, June 1990.
155. Fermi Liquid and Non Fermi Liquid Aspects of the t-J   Model at Large Doping. Orsay, Workshop on Strong Correlation in High Temperature Superconductors, April 17-27, 1990, Paris.
156. Effects of Weak Disorder in Strongly Correlated Electron Systems. International Conference on the Anderson Transition and Mesoscopic Fluctuations, Braunschweig, F.R. Germany, January 9-10, 1990.
157. The Two Impurity Kondo Problem: Large N Expansion and Exact Renormalization Group Results. Interface between Field Theory and Condensed Matter Physics, Trieste, June 20 - June 25, 1989.
158. The Strong Correlation Problem within the Large N Expansion. Institute for Theoretical Physics Conference on High Temperature Superconductivity, Santa Barbara, June 26-30, 1989.
159. Introduction to the Metal Insulator Transition and the Strong Correlation Problem. Mini Workshop on Strongly Correlated Electron Systems, Trieste, June 19 - July 21, 1989.
160. Fermi Liquid and Non Fermi Liquid Phases of the Extended Hubbard Model, in John Hopkins Workshop on Field Theory in Condensed Matter Physics, November 3-4, 1988, Baltimore.
161. High Temperature Superconductors: Is Fermi Liquid Theory Appropriate? Second NEC Symposium on Fundamental Approaches to New Material Phases, October 24-27, 1988, Hakonen, Japan.
162. Fermi Liquid and Non-Fermi Liquid Phases of the Extended Hubbard Model, at US-USSR Workshop on Strongly Correlated Electron Systems, September 30 - October 4, 1988, Tbilisi, USSR.
163. The Slave Boson Approach to the Extended Hubbard Models of High Temperature Superconductivity, in Mechanisms for High Temperature Superconductivity, June 20 - July 21, 1988, Trieste.
164. The Metal Insulator Transition in Disordered Systems. Common Trends in Field Theory and Condensed Matter Physics, Cargese, 1988.
165. Scaling Theory of the Metal Insulator Transition, Los Alamos National Laboratory Disorder and Nonlinearity Workshop, May 4-6, 1988, New Mexico.
166. Resonating Valence Bonds and D Wave Superconductivity. 18^th International Conference on Low Temperature Physics, August 20-26, 1987, Kyoto.
167. Landau Fermi Liquid and the Scaling Theory of the Metal Insulator Transition, University of Tokyo International Symposium on Anderson Localization, August 16-18, 1987, Tokyo.
168. Slave Boson Approach to Strongly Correlated Systems. Rutgers Statistical Mechanics Meeting, May 7-8, 1987, Piscataway.
169. Fermi Liquid Theory of Disordered Systems and the Scaling Theory of the Metal Transition, American Physical Society Meeting, March 15-20, 1987, New York.
170. Quasiparticles in Disordered Systems and the Theory of the Metal Insulator Transition. Chalmers-Nordita-Landau Institute Meeting on New Topics in Condensed Matter Physics, October 6-10, 1986, Goteborg.

 

 

Courses / Lectures at Physics Schools

1.  Pedagogical Lecture on DMFT in  RMBT15-09, Ohio State University, Columbus, Ohio, July 27, 2009 
2.  Introduction to Dynamical Mean Field Theory and its Extensions. Boulder School on Strongly Correlated Materials. June 30 -July 18, 2008  
3. Introduction to Cellular Dyanamical Mean Field Theory and LDA+DMFT. CIFAR-PITP International Summer School on Numerical Methods for Correlated Systems in Condensed Matter. June 1-2, 2008
4. Open Problems in Strongly Correlated Electrons: A Dynamical Mean Field Perspective. Cours de Physique Chaire internationale de recherche Blaise Pascal, CEA-Saclay, France, May 23 - June 01, 2006
5. Princeton Mini Summer School on Correlated Materials, Princeton.  USA, July 18-21 (2005). Lecture I, Lecture II.
6. Strongly Correlated Electrons: diverse examples and unifying themes. Cargese, France, August 8-20 (2005). Lecture I, Lecture II, Lecture III.
7. Dynamical Mean Field Theory of the Mott transition. Course given in the 19^th winter school for theoretical physics, Jerusalem, December 30, 2001 - January 8  (2002) Lecture I, Lecture II, Lecture III, Lecture IV, Lecture V.
8. Dynamical Mean Field Theory for Electronic Structure Calculations. Course given in Workshop on Correlation Effects in Electronic Structure Calculations, June 12-23 (2000) ICPT, Trieste, Italy. 
9. Dynamical Mean Field Theory of the Mott Transition 5 Lectures delivered at the Third Training Course in the Physics of Correlated Electron Systems and High-Tc Superconductors International Institute for Advanced Scientific Studies “E.R. Caianiello” Vietri sul Mare, Salerno, Italy September 20-25 (1998).
10. Resonating Valence Bonds and D-Wave Superconductivity lectures delivered in the Summer School on Condensed Matter Physics: Symmetry of the Order Parameter in High Temperature Superconductors. Bilkent International Center for Advanced Studies Ankara, June 17-22  (1996).
11. Correlated Itinerant Electron Problems 5 lectures delivered at the Spring College in Condensed Matter on Quantum Phases. May 34 to June 10 (1994). The International center for Theoretical Physics, Trieste, Italy.
12. The Extended Hubbard Model: Insights From the Large N Limit, 4 lectures delivered at the 9^th Jerusalem Winter School in Theoretical Physics, Jerusalem, Israel, December 30, (1991) - January 8, (1992).
13. The Large N Expansion and the Strong Correlation Problem, 5 lectures delivered at the Les Houches summer school, Les Houches, France, August 1-30 (1991).