PPT-S.A. Sabbagh and R. Raman

Department of Applied Physics and Applied Mathematics Columbia University New York NY University of Washington Seattle WA For the NSTXU DPAM Working Group NSTXU Disruption PAM Working Group Meeting. General issues of spectroscopies. II. (c) So Hirata, Department of Chemistry, University of Illinois at Urbana-Champaign. . This material has . been developed and made available online by work supported jointly by University of Illinois, the National Science Foundation under Grant CHE-1118616 (CAREER), and the Camille & Henry Dreyfus Foundation, Inc. through the Camille Dreyfus Teacher-Scholar program. Any opinions, findings, and conclusions or recommendations expressed in this material are those of the author(s) and do not necessarily reflect the views of the sponsoring agencies. Optogenectis. Manuela . Buonanno. Outline. Why . nanotechology. Optogenetics. Surface enhanced Raman spectroscopy (SERS). Applications . Nanofibers. Scanning electron micrograph of an optical . nanofiber. Raman Scattering. Coherent . anti-Stokes Raman Scattering. . A. Surface . Enhanced Raman Scattering . (SERS) as . nonlinear optical effect. . B. New . features of the Raman spectra of . single-walled . By: Sarah Bartley. Research Mentor: Dr. P. . Misra. REU Team members: Dr. D. Casmir, R. Garcia-Sanchez, and C. Craig. REU 2015 . Howard . University 2400 . Sixth St NW, Washington, DC 20059. Outline . General issues of spectroscopies. II. General issues of spectroscopies. We will learn two types of spectroscopies: absorption/emission . spectroscopy and scattering spectroscopy.. We will learn their relationship to dipole moment and . 5970.002. Advanced . Atmospheric Radiation. Dave Turner. Lecture . 11. What is happening here? . MPL and CAPABL laser beams above . Summit, Greenland. Photo by Ed . Stockard. Active Optical Remote Sensing. Rotational spectroscopy: intensities. Rotational spectroscopy. In the previous lecture, we have considered the rotational energy levels.. In this lecture, we will focus more on selection rules and intensities.. *Daniel . Casimir. , Prabhakar Misra, Raul Garcia-Sanchez. International Symposium on Molecular Spectroscopy (ISMS). University of Illinois at Urbana-Champaign. June 18, 2014. Outline. History . / Overview of Carbon Nanotubes. J. OINT. Q. UANTUM. I. NSTITUTE. with David Hayes, David . Hucul. , Le . Luo. ,. . Andrew Manning,. Dzmitry. . Matsukevich. , Peter . Maunz. , Jonathan Mizrahi,. Steven . Olmschenk. , . Qudsia. . Quraishi. Techniques for Improving Water Vapor Trend Detection Using Raman Lidar D. N. Whiteman, Code 612, NASA GSFC, D. Venable, Howard University, K. Vermeesch, 612/SSAI, I. Veselovskii, 612/GESTAR, M. Cadirola, 612/Ecotronics, L. Oman, 614, E. Weatherhead, CIRES OF SHORT WAVELENGTHS. Bob Bingham. CfFP. . and U of Strathclyde. R Trines, F . Fiuza. , J Santos, R . F. onseca, L Silva, A Cairns. P Norreys. . Overview. Raman Amplification . at. . short wavelengths . Presenter: Orthodoxia Zervaki. Authors: Orthodoxia Zervaki. a, b. , Braden Stump . c. , Patricia Keady . c. , Pramod Kulkarni. a. , Dionysios D. Dionysiou. b. a . Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health, Cincinnati, OH, USA. at ELI Beamlines. Probing . and Driving . (Bio)Molecular Dynamics. . with Femtosecond Pulses . (. wavelengths 200 – 1200 nm, energies below 1 . mJ. ). Why femtosecond lasers in chemistry and biology?. NSTX-U PAC 37 Meeting. PPPL, Princeton. , NJ. January 27th, 2016. V1.6. S.A. Sabbagh. 1. , . R. Raman. 2. For the NSTX-U DPAM Working Group. 1. Columbia University, New York, NY. 2. University of Washington, Seattle, WA.