PPT-Raman Spectroscopy of Tungsten

Trioxide and COMSOL Computer Simulation in Gas Sensor Technology C Craig Mentor Dr P Misra REU Team Members R GarciaSanchez Dr D Casimir S Bartley Summer 2015 REU Program. 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. 5. . Discussion, Conclusions, and . Future Steps. Choosing Martian Samples for Fossil . Biosignature. Analysis of . Kerogen. : . . Fluorescence . microscopy and Raman spectroscopy applications to analog samples. Acquisition, preprocessing and analysis of spectra. Raman . spectrometer. . scheme. Acquisition, preprocessing and analysis of Raman spectra. 2. Credits: http://. www.doitpoms.ac.uk. /. tlplib. /. raman. 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 . Professor. Dr. HANS SCHUESSLER . By. . Ansam Jameel Talib. Molecular Physics Course. . . . History of Raman Scattering. 1923. . – Inelastic light . scattering . predicted by A. . Spectroscopy of . Tungsten . Trioxide and COMSOL. ©. Computer Simulation in Gas Sensor Technology. C. Craig. Mentor: Dr. P. . Misra. REU Team Members: R. Garcia-Sanchez, Dr. D. . Casimir. , S. Bartley. Roger Hutton, . . on behalf of the Shanghai EBIT laboratory.. Shanghai EBIT, Laboratory, Modern Physics Institute, Fudan University.. The Key Lab. of Applied Ion Beam Physics, Ministry of Education, China.. 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 . Spectroscopy. BY. Dr. . Bhawna. SPECTROSCOPY. Spectroscopy is that branch of science which deals with the study of interaction of electromagnetic radiations with matter . ELECTROMAGNETIC SPECTRUM. Techniques for Archaeological Analysis. LIBS. Raman. LIF. Laser Induced Breakdown Spectroscopy (LIBS). LIBS set-up. LIBS. Advantages. LIBS in . Pigment . Identification. Chemical Identification . Pigment Identification. Infrared (Vibrational). Raman (Rotational & Vibrational) . Texts. “Physical Chemistry”, 6th edition, . Atkins. “Fundamentals of Molecular Spectroscopy”, 4th edition, . Banwell & McCash. 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 . Mark . Schnittker . 2013, Aug-23. schnittker@yahoo.com. 408-368-1064. . Some common measurement techniques. . . Atomic techniques (usually inorganic). X-ray spectroscopy. Optical absorption. Plasma discharge. 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?.