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DTSTART;TZID=America/New_York:20230209T180000
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DESCRIPTION:Speaker:\n\nDr. Charles Roques-Carmes (MIT\, Cambridge\, MA)\n\
 nAbstract:\n\nNanophotonics has become over the past decades a paramount t
 echnology\, enabling\, among other things\, the design of novel light sour
 ces\, detectors\, and devices controlling the polarization\, spectral\, an
 d angular distribution of light. A landmark of nanophotonics is the design
  of nanostructured materials (metasurfaces\, photonic crystals\, nanoreson
 ators\, etc.) to tailor the interaction of light with matter\, either by s
 haping light propagation at the nanoscale\, or by controlling emission fro
 m atoms and molecules. In this talk\, we will show how one can enhance and
  tailor radiation from high-energy particles\, such as free electrons and 
 x-rays with engineered nanophotonics structures. We present a framework to
  model\, tailor\, enhance\, and even optimize radiation from free electron
 s and other high-energy particles interacting with nanophotonic structures
 . We then describe the building of a featured experimental setup to record
  spectrally-resolved light emission from free electrons interacting with n
 anophotonic structures. We utilize our methods to demonstrate nanophotonic
  enhancement of coherent and incoherent cathodoluminescence\, in addition 
 to scintillation from x-rays.\n\nBiography:\n\nCharles Roques-Carmes is a 
 postdoctoral associate at the Research Laboratory of Electronics at MIT\, 
 working with Prof. Marin Soljačić. He received his PhD in Electrical Eng
 ineering and Computer Science from MIT in 2022. Charles has performed rese
 arch and collaborated with groups across MIT\, Harvard\, ITMO (Russia)\, t
 he Technion (Israel) and Tel-Aviv University. His research interests inclu
 de nanophotonics\, light-matter interactions\, free electron physics\, x-r
 ay imaging\, and photonic computing. Charles has published his research in
  journals such as Science\, Nature\, Nature Physics\, Nature Communication
 s\, and Physical Review X. He has given invited talks at several internati
 onal conferences\, such as CLEO\, SPIE\, and METANANO. He is the recipient
  of several awards\, including appearing on the Forbes 30 under 30 Science
  2023 list\, the Stanford Science Fellowship 2023\, the Mathworks Engineer
 ing Fellowship\, the Robert B Guenassia Award\, and is a Carnot Foundation
  Fellow. Prior to that\, Charles has received Masters of Science from MIT 
 (2018)\, Ecole Polytechnique in France (2016)\, and a Bachelor of Science 
 from Ecole Polytechnique (2015).\n\nMIT Lincoln Laboratory\, Forbes Rd. Ca
 feteria\, 3 Forbes Rd\, Lexington\, Massachusetts\, United States\, 02421\
 , Virtual: https://events.vtools.ieee.org/m/348424
LOCATION:MIT Lincoln Laboratory\, Forbes Rd. Cafeteria\, 3 Forbes Rd\, Lexi
 ngton\, Massachusetts\, United States\, 02421\, Virtual: https://events.vt
 ools.ieee.org/m/348424
ORGANIZER:patrick.callahan@ieee.org
SEQUENCE:0
SUMMARY:Enhancing and Shaping Radiation from High-Energy Particles with Nan
 ophotonics
URL;VALUE=URI:https://events.vtools.ieee.org/m/348424
X-ALT-DESC:Description: <br /><p>Speaker:<br />&nbsp\;<br />Dr. Charles Roq
 ues-Carmes (MIT\, Cambridge\, MA)<br />&nbsp\;<br />Abstract:<br />&nbsp\;
 <br />Nanophotonics has become over the past decades a paramount technolog
 y\, enabling\, among other things\, the design of novel light sources\, de
 tectors\, and devices controlling the polarization\, spectral\, and angula
 r distribution of light. A landmark of nanophotonics is the design of nano
 structured materials (metasurfaces\, photonic crystals\, nanoresonators\, 
 etc.) to tailor the interaction of light with matter\, either by shaping l
 ight propagation at the nanoscale\, or by controlling emission from atoms 
 and molecules. In this talk\, we will show how one can enhance and tailor 
 radiation from high-energy particles\, such as free electrons and x-rays w
 ith engineered nanophotonics structures. We present a framework to model\,
  tailor\, enhance\, and even optimize radiation from free electrons and ot
 her high-energy particles interacting with nanophotonic structures. We the
 n describe the building of a featured experimental setup to record spectra
 lly-resolved light emission from free electrons interacting with nanophoto
 nic structures. We utilize our methods to demonstrate nanophotonic enhance
 ment of coherent and incoherent cathodoluminescence\, in addition to scint
 illation from x-rays.<br />&nbsp\;<br />Biography:<br />&nbsp\;<br />Charl
 es Roques-Carmes is a postdoctoral associate at the Research Laboratory of
  Electronics at MIT\, working with Prof. Marin Soljačić. He received his
  PhD in Electrical Engineering and Computer Science from MIT in 2022. Char
 les has performed research and collaborated with groups across MIT\, Harva
 rd\, ITMO (Russia)\, the Technion (Israel) and Tel-Aviv University. His re
 search interests include nanophotonics\, light-matter interactions\, free 
 electron physics\, x-ray imaging\, and photonic computing. Charles has pub
 lished his research in journals such as Science\, Nature\, Nature Physics\
 , Nature Communications\, and Physical Review X. He has given invited talk
 s at several international conferences\, such as CLEO\, SPIE\, and METANAN
 O. He is the recipient of several awards\, including appearing on the Forb
 es 30 under 30 Science 2023 list\, the Stanford Science Fellowship 2023\, 
 the Mathworks Engineering Fellowship\, the Robert B Guenassia Award\, and 
 is a Carnot Foundation Fellow. Prior to that\, Charles has received Master
 s of Science from MIT (2018)\, Ecole Polytechnique in France (2016)\, and 
 a Bachelor of Science from Ecole Polytechnique (2015).</p>
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