Selected Seminars and Colloquia

1.      Coherent, Nonlinear, and Ultrafast Nanoplasmonics, Physics Department, Queens College CUNY, December 10, 2007.

2.      Nanoplasmonics: Phenomena and Applications, Chemistry Division Colloquium, Argonne National Laboratory, December 3, 2007.

3.      Nanoplasmonics: Generation and Control of Nanoscale Optical Fields, Monthly Seminar of the Russell Berry Nanotechnology Institute, Technion City (Haifa, Israel), November 28, 2007.

4.      Nanoplasmonics: Generation and Control of Nanoscale Optical Fields, Weizmann Institute of Technology (Rehovot, Israel), November 21, 2007.

5.      Nanoplasmonics: Generation and Control of Nanoscale Optical Fields, Bar Ilan University (Tel Aviv, Israel), November 20, 2007.

6.      Fundamentals and Applications of Nanoplasmonics, Colloquium of the Materials Science and Engineering Program, Tel Aviv University, (Tel Aviv, Israel), November 20, 2007.

7.      Nanoplasmonics under Coherent Control, Colloquium of the Department of Physics, Tel Aviv University, (Tel Aviv, Israel) November 18, 2007.

8.      Nanoplasmonics: Generation and Control of Nanoscale Optical Fields, Stevens Institute of Technology, Hoboken (NJ, USA), February 28, 2007

9.      Ultrafast Nanoplasmonics, Colloquium of the Max Plank Institute for Quantum Optics, Garching at Munich, Germany, February 2007

10.  Nanoplasmonics, Colloquium at the Department of Physics, National Taiwan University, Taipei, December 19, 2007.

11.  Nanoplasmonics: Generation and Control of Nanoscale Optical Fields, Colloquium at Ecole Normale Supérieure de Cachan (France), March 17, 2006.

12.  Nanoplasmonics: Generation and Control of Nanoscale Optical Fields, Colloquium of the Department of Electrical Engineering at Columbia University, May 1, 2006.

13.  Nonlinear  Nanoplasmonics and Coherent Control on Nanoscale, Colloquium of Department of Electrical Engineering, University of California at San Diego, August 18, 2006.

14.  Coherent, Nonlinear, and Ultrafast Nanoplasmonics, Colloquium of the Department of Physics, National Taiwan University, December 12, 2006.

15. Nanoplasmonics and its Applications, Chemistry Division, Los Alamos National Laboratory, November 9, 2005.
16. Coherent, Nonlinear, and Active Nanoplasmonics, Sonderseminar des Centrums für Angewandte Photonik – CAP, University of Konstanz, Germany, June 29, 2005.
17. Coherent, Nonlinear, and Active Nanoplasmonics, Institut für Angewandte Physik /Photophysik, Technische Universität Dresden, Germany, July 26, 2005.

18.  Coherent, Nonlinear, and Active Nanoplasmonics, Optics Seminar, University of North Carolina at Charlotte, Friday, March 4, 2005.

19.  Coherent, Nonlinear, and Active Nanoplasmonics (Nanolocalization of Optical Energy), Colloquium of Nanoscience Program, University of Pittsburgh, January 21, 2005.

20.  Coherent, Nonlinear, and Active Nanoplasmonics, Colloquium at the Department of Chemical Physics, Weizmann Institute of Sciences, Rehovot, Israel, December 28, 2004.

21.  Coherent, Nonlinear, and Active Nanoplasmonics, Colloquium at the Department of Electrical Engineering, Technion – Israel Institute of Technology, Technion City, Haifa, Israel, December 28, 2004.

22.  Coherent, Nonlinear, and Active Nanoplasmonics, Colloquium at the Department of Physics, Tel Aviv University, Tel Aviv, Israel, 18 December, 2004.

23.  Coherent, Nonlinear, and Active Nanoplasmonics, Colloquium of the Department of Computer Engineering at University of Illinois at Urbana-Champaign, December 2-3, 2004.

24.  Coherent, Nonlinear, and Active Nanoplasmonics, Rice University, Houston, TX, October 21-22, Colloquium of the Nanoscience Program.

25.  Plasmonic Laser (Coherent, Ultrafast, and Nonlinear Nanoplasmonics), Seminar of the Nanophotonics Centre of the University of Southampton, UK, 2.00 pm, 9 September 2004.

26.  Coherent, Ultrafast, and Nonlinear Nanoplasmonics, Colloquium of the Department of Physics, Imperial College, London, UK, September 6, 2004.

27.  Nanophotonics: Ideas and Phenomena, Colloquium of the Steacie Institute for Molecular Sciences, NRC, Ottawa, Canada, August 19, 2004.

28.  Nanophotonics: Ideas and Phenomena, Oberseminar der Sektion Physik und der Center for Nanoscience, Ludwig Maximilan University, Munich, Germany, 25 June 25, 2004.

29.  Nanophotonics: Ideas and Phenomena, Colloquium Ehrenfestii, University of Leiden, The Netherlands, June 9, 2004.

30.  Nanophotonics: Ideas and Phenomena, Institute for Physics and Nanotechnology, Aalborg University, Denmark, June 2, 2004.

31.  Enhanced, Ultrafast, Coherent, and Active Nanoplasmonics, Colloquium of the Theoretical Department of Los Alamos National Laboratory, May 26, 2004.

32.  Plasmonic Nanophotonics, Colloquium of the Department of Chemistry, University of Rochester, Rochester, NY, March 1, 2004.

33.  Nanophotonics: Ideas and Phenomena, MRSEC Seminar, The James Franck Institute and The Materials Research Center, University of Chicago, Chicago, IL, February 10, 2004.

34.  Nanophotonics: Ideas and Phenomena, Biomolecular Nanotechnology Seminar, Department of Physics and Astronomy, Arizona State University, Tempe, AZ, December 4, 2003.

35.  Nanofocusing and Generation in Nanooptics, Colloquium of the Department of Chemistry, GaTech, Atlanta, Georgia, December 1, 2003.

36.  Novel Nanooptics, Nanophysics Seminar, Department of Physics, Vanderbilt University, Nashville, Tennessee, October 31, 2003.

37.  Nanoscale Photoprocesses, Colloquium at Illinois Institute of Technology, Chicago, Illinois, September 18, 2003.

38.  Novel Nanooptics, Colloquium of the Department of Physics, University of Utah, Salt Lake City, Utah, September 11, 2003.

39.  Second Harmonic Generation on Nanostructured Surfaces, Colloquium of Laboratory for Quantum and Molecular Photonics, École Normale Supérieure de Cachan, Paris, France, July 10, 2003.

40.  Ultrafast and Coherent Photoprocesses on Nanoscale, Seminar of the Department of Polymer Science, University of Akron, Ohio, November 21, 2002.

41.  Ultrafast and Nonlinear Optical Processes in Nanosystems, Colloquium of the Department of Physics, University of Wisconsin-Stevens Point (November 1, 2002).

42.  Ultrafast Laser-Induced Processes in Nanosystems, Softmatter Nanotechnology and Advanced Spectroscopy Colloquium of the Chemistry Division, Los Alamos National Laboratory, Los Alamos, NM, June 13, 2002.

43.  Ultrafast Concentration and Transfer of Energy in Nanostructures: Optical Excitation and Control, Center for Engineering Science Advanced Research and Computer Science and Mathematics Division Colloquium, Oak Ridge National Laboratory, Oak Ridge, TN, April 19, 2002.

44.  Ultrafast Processes in Nanosystems: "Ninth-Wave" Effect, Anderson Localization/Delocalization of Surface Plasmons, and Coherent Control of the Spatial Localization on Nanoscale, Condensed Matter Seminar, Department of Physics, Georgia Tech, March 14, 2002.

45.  Ultrafast Processes in Nanosystems, Colloquium of the Department of Physics, University of Georgia at Athens, October 4, 2001.

46.  Giant Fluctuations, Enhancement and Ultrafast Optical Responses in Disordered Clusters, Composites and Rough Surfaces, Department of Physics, Emory University, Atlanta, Georgia, February 21, 2000.

47.  Femtosecond and Attosecond Chaos, Giant Fluctuations and Nonlinear Optical Enhancement in Disordered Clusters, Nanocomposites and Rough Surfaces, Colloquium of the Department of Electrical Engineering, Washington University, Saint Louis, February 11, 2000.

48.  Femtosecond and Attosecond Chaos, Giant Fluctuations of Local Optical Fields and Nonlinear Optical Enhancement In Disordered Clusters, Nanocomposites and Rough Surfaces, Colloquium of the Department of Physics, University of Toronto, Ontario, Canada, January 24, 2000.

49.  Femtosecond and Attosecond Chaos, Giant Fluctuations of Local Optical Fields and Nonlinear Optical Enhancement In Disordered Clusters, Nanocomposites and Rough Surfaces, Colloquium of the Department of Physics, Georgia Tech, January19, 2000.

50.  Nonlinear Optical Enhancement and Eigenmode Chaos in Nanocomposites Colloquium of the Department of Physics, University of Georgia at Athens, October 29, 1999.

51.  Nonlinear Optical Enhancement in Clusters and Nanocomposites, Colloquium of the Department of Physics and Astronomy, Alabama State University, Tuscaloosa, Alabama, February 10, 1999.

52.  Field-Theoretical Approach to Light-Induced Drift (Photon-Drag) Effect in Semiconductor Quantum Wells, University of Georgia, Athens, Georgia, October 10, 1998

53.  Enhanced Nonlinear Responses, Chaos, and Correlation of Eigenmodes in Large Disordered Clusters, University of Georgia, Athens, Georgia, October 4, 1997

54.  Inhomogeneous Plasmon Localization, Chaos, and Correlations in Large Disordered Clusters, Georgia State University, Atlanta, GA, 1997.

55.  Electron Dynamics and Nonlinear Optical Responses in Confined Systems (Heterostructures, Clusters And Composites), Georgia State University, Atlanta, Georgia, 1996.

56.  Fluctuations, Scaling, and Enhanced Nonlinear-Optical Processes in Fractals, James Frank Institute, University of Chicago, Chicago, Illinois, 1993.

57.  New Photoinduced Electron-Transfer Effects in Semiconductor Quantum Wells, Department of Physics and Astronomy, State University of New York at Buffalo, Amherst, New York, 1993.

58.  Enhanced Nonlinear Photoprocesses and Fluctuations in Fractal Media, Institute of Optics, College of Engineering and Applied Science, University of Rochester, Rochester, New York, 1993.

59.  Enhanced Nonlinear Photoprocesses and Fluctuations in Fractal Media, Department of Physics and Astronomy and Ames Laboratory, Iowa State University, Ames, Iowa, 1993.

60.  Enhanced Nonlinear Photoprocesses and Fluctuations in Fractal Media, Department of Chemistry, University of Toronto, Toronto, Ontario, Canada, 1993.

61.  Concept of Multifractality in Physics, Department of Pure and Applied Mathematics, Washington State University, Pullman, Washington, 1992.

62.  Surface-Enhanced Raman Scattering from Fractals: Scale-Invariant Theory, Department of Physics, Washington State University, Pullman, Washington, 1992.

63.  Counter-Field Electron Transfer in Coupled Semiconductor Quantum Wells, Department of Physics, Washington State University, Pullman, Washington, 1992.

64.  Optics of Fractals, Department of Physics, University of Idaho, Moscow, Idaho, 1992.

65.  Fractal Clusters and Enhanced Optical Processes, Department of Chemistry, Washington State University, Pullman, Washington, 1992.

66.  Theoretical Studies of (1) Semiconductor Heterostructures and (2) Silicon Clusters and Metallic Fractal Clusters, Molecular Science Research Center, Battelle Pacific Northwest Laboratories, Richland, Washington, 1991.

Light-Induced Drift of Electrons in Semiconductor Quantum Wells, Department of Physics, Washington State University, Pullman, Washington, 1991.

67.  Nonlinear Optics of Fractals, Department of Physics, University of Michigan, Ann Arbor, Michigan, 1990.

68.  Nonlinear Photoprocesses in Macromolecules, Department of Physics and Astronomy, University of New Mexico, Albuquerque, New Mexico, 1990.

69.  Optical Properties of Fractal Structures, Department of Chemistry, University of Washington, Seattle, Washington, 1990.

70.  Light-Induced Drift of Electrons in Semiconductor Quantum Wells, Department of Physics and Astronomy, State University of New York at Buffalo, Buffalo, New York, 1990.

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