Presented By: Department Colloquia
Department Colloquium | Optical Thermodynamics and Lagrange Waveguides
Demetris Christodoulides (Department of Electrical and Computer Engineering and Dept of Physics, University of Southern California)
In recent years, there has been a resurgence of interest in multimode structures, driven primarily by the growing demand for higher information capacities. This renewed focus has sparked a surge of activity in the field of nonlinear multimode optics. The inherent complexity of these systems—where hundreds or even thousands of nonlinearly interacting modes collectively behave as a many-body system—has led to the discovery of novel optical phenomena that would be unattainable in single-mode settings.
In this talk, a new thermodynamic framework for describing complex, highly multimode, nonlinear optical systems will be presented. It will be shown that mode occupancies in such systems exhibit a universal behavior, consistently evolving toward maximizing the system’s entropy. This thermodynamic response is universal—it occurs regardless of the specific nonlinearities at play and can be harnessed to either heat or cool an optical system. Special emphasis will be placed on new methodologies for coherent beam combining using principles of optical thermodynamics.
Methodologies for guiding light and charged particles in a novel class of waveguiding structures based on Lagrange points will also be discussed.
Bio: Demetri Christodoulides is an Endowed Chair Professor in the Department of Electrical and Computer Engineering at the University of Southern California. He received his Ph.D. from Johns Hopkins University in 1986. After earning his doctorate degree, he joined Bellcore as a postdoctoral research fellow. He was a faculty member in the Department of Electrical Engineering at Lehigh University from 1988 to 2002. Between 2002 and 2022 he was a Pegasus Professor and the Cobb Family Endowed Chair at CREOL–The College of Optics and Photonics at the University of Central Florida. He has served as an associate editor for the IEEE Journal of Quantum Electronics and JOSA B. He is a Fellow of APS and Optica. He is the recipient of the Optica’s 2011 R.W. Wood Prize and 2018 Max Born Award, and of the 2023 Arthur L. Schawlow Prize in Laser Science of APS.
In this talk, a new thermodynamic framework for describing complex, highly multimode, nonlinear optical systems will be presented. It will be shown that mode occupancies in such systems exhibit a universal behavior, consistently evolving toward maximizing the system’s entropy. This thermodynamic response is universal—it occurs regardless of the specific nonlinearities at play and can be harnessed to either heat or cool an optical system. Special emphasis will be placed on new methodologies for coherent beam combining using principles of optical thermodynamics.
Methodologies for guiding light and charged particles in a novel class of waveguiding structures based on Lagrange points will also be discussed.
Bio: Demetri Christodoulides is an Endowed Chair Professor in the Department of Electrical and Computer Engineering at the University of Southern California. He received his Ph.D. from Johns Hopkins University in 1986. After earning his doctorate degree, he joined Bellcore as a postdoctoral research fellow. He was a faculty member in the Department of Electrical Engineering at Lehigh University from 1988 to 2002. Between 2002 and 2022 he was a Pegasus Professor and the Cobb Family Endowed Chair at CREOL–The College of Optics and Photonics at the University of Central Florida. He has served as an associate editor for the IEEE Journal of Quantum Electronics and JOSA B. He is a Fellow of APS and Optica. He is the recipient of the Optica’s 2011 R.W. Wood Prize and 2018 Max Born Award, and of the 2023 Arthur L. Schawlow Prize in Laser Science of APS.
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