Colloquia and Invited Seminars

1. “Harnessing Optical Photons for Nuclear Security and Energy Applications,” Department of Nuclear Science and Engineering, Massachusetts Institute of Technology (December 12, 2023)
2. “Laser Spectroscopy for Nuclear Security and Energy Applications,” Argonne National Laboratory (March 20, 2023)
3. “From Terawatts to Extreme Light at Michigan: Filament-Based Remote Sensing and the New ZEUS User Facility,” École Polytechnique Paris, France (March 14, 2023)
4. “Advanced Radiation Detection Research at the University of Michigan,” Aix-Marseille University, France (March 2, 2023)
5. Applied Nuclear Research Group Research Activities,” CEA Cadarache, France (February 28, 2023)
6. “Applications of Laser Spectroscopy in Nuclear Energy and Security,” Technical University of Rosenheim, Germany (November 24, 2022)
7. “Laser Spectroscopy for Nuclear Energy and Security,” Seoul National University, Korea (May 6, 2022)
8. “Advances in Fast Neutron Detection and Spectroscopy,” Ulsan National Institute of Science and Technology, Korea (May 4, 2022)
9. “Laser Spectroscopy for Nuclear Energy and Security,” Korea Atomic Energy Research Institute, Korea (May 3, 2022)
10. “Ion-Driven Nuclear Reactions for Highly Penetrating Radiography and Active Interrogation,” Nondestructive Characterization Institute, Lawrence Livermore National Laboratory (April 12, 2022)
11. “Far-field Rector Discovery and Monitoring using Antineutrinos,” Applied Physics Seminar, University of Michigan (October 21, 2020)
12. “Ultrafast Lasers: an Enabling Tool for Nuclear Security and Safety Applications,” Department of Electrical and Computer Engineering, University of Texas at San Antonio (February 28, 2020)
13. “From eV to MeV: Laser- and Accelerator-based Detection of Nuclear Materials,” Air Force Institute of Technology (January 24, 2019)
14. “From eV to MeV: Laser- and Accelerator-based Detection of Nuclear Materials,” Department of Engineering Physics, University of Wisconsin-Madison (September 11, 2018)
15. “From eV to MeV: Laser- and Accelerator-based Detection of Nuclear Materials,” Nuclear Engineering Program, Ohio State University (August 29, 2018)
16. “Advanced Radiation Detectors for Nuclear Security,” Nuclear and Radiological Engineering Program, Georgia Institute of Technology (March 2, 2017)
17. “Novel Photonics Applications in Nuclear Science and Security,” Department of Electrical and Computer Engineering, Texas Tech University (October 7, 2016)
18. “Active Interrogation by Low-Energy Nuclear Reactions for Nuclear Security Applications,” Department of Physics, University of Notre Dame (October 3, 2016)
19. “Spectroscopy of Laser-Produced Plasmas for Nuclear Security and Safety Applications,” Applied Physics Program, University of Michigan (September 28, 2016)
20. “Advanced Radiation Detectors for Nuclear Security,” Department of Nuclear Engineering, University of New Mexico (February 11, 2015)
21. “Novel Photonics Applications in Nuclear Science and Security,” Department of Electrical Engineering, University of Nevada, Las Vegas (October 7, 2014)
22. “Novel Photonics Applications in Nuclear Science and Security,” Nuclear Engineering Program, University of Florida (September 18, 2014)
23. “Modern short-pulse laser technology in medicine,” Medical School of the University of Osijek, Croatia (June 26, 2014)
24. “Recent Advances in Nuclear Fusion Research,” AREVA-Richland NAYGN Seminar Series (April 21, 2014)
25. “Laser-Based Particle Accelerators for Nuclear and Radiological Applications,” Department of Nuclear Engineering, University of Tennessee, Knoxville (February 5, 2014)
26. “The Nuclear Engineering Program at Penn State University and Research Activities in Jovanovic Group,” Department of Mechanical Engineering, Shanghai Jiao Tong University, China (May 16, 2013)
27. “Ultrafast Lasers in Nuclear Security Applications,” Department of Electrical Engineering, The Pennsylvania State University (February 21, 2012)
28. “Ultrahigh intensity lasers: frontiers in technology and applications,” Department of Mechanical and Nuclear Engineering, The Pennsylvania State University (November 9, 2010)
29. “Advances in neutron, gamma, and neutrino detection for nonproliferation applications,” Department of Mechanical and Nuclear Engineering, The Pennsylvania State University (September 9, 2010)
30. “Advances in neutron, gamma, and neutrino detection for nonproliferation applications,” Department of Nuclear Engineering and Radiological Sciences, University of Michigan (April 2, 2010).
31. “Laser and detector development for scientific, energy, and nonproliferation applications,” Department of Civil Engineering, University of Utah (February 19, 2010)
32. “Ultrahigh intensity lasers: frontiers in technology and applications,” Department of Nuclear Science and Engineering, Massachusetts Institute of Technology (December 7, 2009).
33. “Inverse Compton scattering gamma-ray sources / Phase-sensitive OPAs: pulse shaping and resolution improvement,” Max-Planck Institute for Quantum Optics, Garching, Germany (July 27, 2009)
34. “Nuclear Detection and Nonproliferation Research at Purdue University,” Oak Ridge National Laboratory (February 10, 2009).
35. “Advanced laser technology for high-brightness photoinjectors and inverse Compton scattering sources,” Department of Physics, Northern Illinois University (January 30, 2009)
36. “Ultrahigh Intensity Lasers and Nonlinear Optics: Frontiers in Technology and Applications,” Shanghai Institute for Optics and Fine Mechanics, Chinese Academy of Sciences, China (November 3, 2008)
37. “Ultrahigh Intensity Lasers in Nuclear Science and Engineering: New Frontiers in Technology and Applications,” School of Nuclear Engineering, Purdue University (March 7, 2007)
38. “Ultrahigh Intensity Lasers and Nonlinear Optics: New Frontiers in Technology and Applications,” Department of Physics, University of Nebraska – Lincoln (March 1, 2007)
39. “Precision short-pulse damage tests of final optics for high-energy petawatt laser systems,” Lawrence Livermore National Laboratory (March 30, 2005)
40. “Recent LLNL developments of advanced OPCPA techniques and high damage threshold multilayer dielectric gratings for high-energy petawatt lasers,” Department of Physics, University of Nevada, Reno (March 14, 2005)
41. “Advanced concepts of short-pulse generation, amplification, and pulse selection,” Lawrence Livermore National Laboratory (July 14, 2003)
42. “Parametric amplification techniques for high peak power lasers,” LULI – Ecole Polytechnique, France (March 31, 2003)
43. “Recent advances in optical parametric chirped pulse amplification in LS&T,” Lawrence Livermore National Laboratory (December 9, 2002)
44. “High-power short-pulse lasers for inertial confinement fusion and nuclear physics,” Department of Nuclear Engineering, Purdue University (September 23, 2002)
45. “Optical parametric chirped-pulse amplification: towards exawatt power on short-pulse lasers,” Institute for Laser Physics, University of Hamburg, Germany (July 22, 2002)
46. “Recent advances in short light pulse amplification,” Department of Physics, University of California at Berkeley (March 29, 2002)
47. “Optical parametric chirped pulse amplification: towards exawatt pulses on high-energy lasers,” Department of Physics, University of Nevada at Reno (January 25, 2002)
48. “Optical parametric chirped pulse amplification: towards exawatt pulses on high-energy lasers,” Department of Nuclear Engineering, University of California at Berkeley (December 3, 2001)
49. “Optical parametric chirped pulse amplification for high power short pulse lasers,” Laboratory for Laser Energetics, University of Rochester (July 23, 2001)
50. “Optical parametric chirped pulse amplification for high power short pulse lasers,” Laser Science&Technology Program, Lawrence Livermore National Laboratory (July 18, 2001)
51. “Optical parametric chirped pulse amplification for high power short pulse lasers,” Photonics Division, General Atomics, San Diego (February 2, 2001)