Photonics Seminar: Mercedeh Kajavikhan, University Of Central Florida
Non-Hermitian Photonics: Optics at an Exceptional Point
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Non-Hermitian Photonics: Optics at an Exceptional Point
Phase Changing Semiconductors
Nonreciprocal Photonics Without Magnetic Biasing
Scalable Nanophotonics For Quantum And Classical Information Processing
Manipulating Exciton Dynamics For Energy Conversion Applications
Paradigm Shift in Mems/Nems Toward Multi-functional and Near-zero Power Integrated Microsystems
Near-Quantum-Limited Microwave Amplification and Nonreciprocal Transmission Using Engineered Mechanical Dissipation
Quantum Optics with Two-dimensional Materials from Many-body Physics to Quantum Information
Topological Insulator Lasers
Manipulating Matter with Strong Coupling: Harvesting Triplet Excitons in Organic Exciton Microcavities
Nanowires and Nano-oxides as Building Blocks for Nonlinear Photonics
Quantum Experiments with Massive, Mechanical Oscillators
Pushing the Limits of Nanophotonic Control Via Inverse Design
Developments in the Science and Application of Metamaterials at the University of Alberta
Coupling of Photonic Fano Resonances with 2D Excitons
3D Plasmonic Nanostructures for Biology and Medicine
Steering Photons: From Detectors and Smart Windows to Space Propulsion and Quantum Forces
Enhanced Sensitivity in Non-Hermitian RF and Optical Sensors
On-chip Integration of Single-Photon Sources and Detectors
All-Dielectric Optical Antennas as Enablers of Chiral and Topological Applications
From Maxwell’s Demon to Einstein’s Speed Demon
Nanoscale Optical Modulators: Performance Metrics
Gradient Metasurface for Surface Wave Control
Curious about the Advanced Science Research Center? Learn more about our five research initiatives at the ASRC IlluminationSpace. At the ASRC IlluminationSpace, located at the Advanced Science Research Center of The Graduate Center of The City University of New York, students explore five exciting and interconnected areas of science — nanoscience, photonics, structural biology, neuroscience, and environmental
Photons as Energy and Fuel: Harnessing Nanoscale Light-Matter Interactions in Terrestrial and Space Domains. Ognjen Ilic, Postdoctoral Scholar, Department of Applied Physics and Materials Sciences, California Institute of Technology The diverse range of available thermodynamic resources—from the Sun at 6,000 degrees to cold space at 3 degrees—offers great potential for energy and environmental applications. To
Learn about applications in single-cell technologies and single-cell multi-omic automation, and discuss what technologies and tools could support your research. The workshop includes three presentations followed by discussions with investigators. 12 p.m.: Katy Richards-Hrdlicka, Snr Field Applications Specialist, Single Cell Isolation and Analysis on the Fludigm C1 Platform 12:45 p.m.: David Chappell, Snr Field APplications
Inherently Matched Self-Dual Structures
Dynamics of Topological Metastructures: Nonlinearities and Quasi-periodicity
An Experimental Look at Hydrophobic Mismatch
Speaker: Miruna Ghinia-Tegla, Emerson Lab, CCNY
Developing Models for Chromatin Folding and Function
Half-harmonic generation: enabling photonic solutions for molecular sensing and non-classical computing
Functional and pathological RNA-binding protein phase separation with atomistic detail
Silicon Mie-resonators with Embedded Ge Quantum Dots for NIR Light Control
Mining evolution for new biological principles and new treatments for glioblastoma, peripheral nerve damage and lysosomal storage disorders
Speaker: Nikos Konstantinide, Desplan Lab, NYU
Cytoskeletal structural plasticity in force generation and mechanosensation
Prion Biology: At the Intersection of Protein Folding and its Cellular Environment
Single-cell transcriptional states of oligodendroglia in development and disease