Photonics Initiative Seminar: Guancong Ma
Non-Abelian Braiding with Sound and Light Abstract – Many physics laws and mathematical rules are insensitive to order. For example, the addition of numbers disregards the sequence order, e.g., 1+2+3=3+1+2.
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Non-Abelian Braiding with Sound and Light Abstract – Many physics laws and mathematical rules are insensitive to order. For example, the addition of numbers disregards the sequence order, e.g., 1+2+3=3+1+2.
Co-sponsored with CCNY. Using Resonant Inelastic X-Ray Scattering to study quantum materials Abstract – Modern light sources like the NSLS-II at Brookhaven National Lab deliver bright tunable photons in a wide range
Regulating molecular assembly with chemical fuels—Spinning ribbons, dissipative structures, and an approach towards synthetic life Job Boekhoven, PhD Department of Bioscience, Technical University of Munich Abstract-Molecular self-assembly is the process
Exact formulation of the mutual particle-cavity dynamics and its use for the study of loss threshold phenomenon under magnetization Abstract – Light-matter interaction plays a pivotal role in pushing forward
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Synthesis of Interactive Peptide Nanostructures in Living Systems Tanja Weil, PhD Max Planck Institute for Polymer Research, Germany Abstract- We explore controlled chemical reactions in complex living systems to generate
Multi-Beam Antennas (MBAs) and Beam-Forming Networks (BFNs) Abstract - Distinguished Speakers Giovanni Toso and Piero Angeletti from European Space Agency, Netherlands will present the state of the art and the on-going
Join us for our rescheduled kickoff of our 2024/25 Communicating Your Science Series, which helps CUNY STEM students, postdocs and faculty bone up on their science communications skills. Sponsored by
Nonlinear Photonics in the Mid-Infrared and Terahertz Abstract – Optical sensing at long wavelengths presents significant opportunities and significant challenges. The longwave infrared and terahertz ranges are renowned for their
Manipulating Light with Optical Metasurfaces: from Classical to Quantum Mu Wang National Laboratory of Solid State Microstructures, School of Physics, and Collaborative Innovation Center of Advanced Microstructures, Nanjing University, Nanjing
This is an in-person seminar. If you opt to join via zoom use meeting ID 876 8386 3171 Passcode 844443