Frequency-resolved~x-ray~scattering

Noor Al-Sayyad; Matthew Ware; J. Michael Glownia; Jordan O&#039;Neal; Philip Bucksbaum

Frequency-resolved~x-ray~scattering

POSTER

Abstract

In a series of experiments at the LINAC Coherent Light Source (LCLS), the time-resolved x-ray scattering (TRXS) from molecular iodine was measured after excitation by an 800 nm, 520 nm, and a combination of 800 and 520 nm laser pulses. The measured TRXS is used to generate a frequency scattering spectrum by taking a temporal Fourier transform along the laser-pump-xray-probe delay axis. This is known as frequency-resolved x-ray scattering (FRXS). Using FRXS, vibrational and dissociative motion are separated in the spectrum allowing for the easy characterization of motion. An overview of FRXS measurements will be presented. For dissociations, velocities and initial positions are measured, and for vibrations, the equilibrium position, amplitude of motion, and beat frequency are measured.

Authors

Noor Al-Sayyad

Department of Physics at Stanford University, PULSE Institute, PULSE Institute, Stanford University
Matthew Ware

Department of Physics at Stanford University, PULSE Institute, PULSE Institute, Stanford University
J. Michael Glownia

LINAC Coherent Light Source, SLAC National Laboratory, Linac Coherent Light Source - SLAC National Accelerator Laboratory, LCLS, SLAC National Accelerator Laboratory
Jordan O'Neal

Department of Physics at Stanford University, PULSE Institute, Department of Physics, Stanford University; Stanford PULSE Institute, SLAC National Accelerator Laboratory
Philip Bucksbaum

Department of Physics, Applied Physics, and Photon Science at Stanford University, PULSE Institute, PULSE Institute, Stanford Universitiy/SLAC