chemRIXS Experimental Methods

NEH 2.2 will host a wide range of experimental methods with flexible instrumentation. The high repetition rate of LCLS-II will provide outstanding signal-to-noise ratio. All of these methods will be compatible with ultrafast time resolved pump-probe studies.

  • X-ray Absorption Spectroscopy (XAS): XAS will be carried out either directly in transmission, in Total Fluorescence Yield (TFY) mode via in-vacuum single-photon sensitive detectors, or in Partial Fluorescence Yield (PFY) mode via wavelength-dispersing grating spectrometer.
  • Resonant Inelastic X-ray Scattering (RIXS) and X-ray Emission Spectroscopy (XES): Resonant or non-resonant RIXS/XES will be carried out with the use of a grating spectrometer.

chemRIXS INSTRUMENT TEAM

Kristjan Kunnus

ChemRIXS Instrument Lead Scientist  
(650) 926-2829  
kristjan@slac.stanford.edu

David J. Hoffman

Scientist  
(650) 926-3530  
djhoff@slac.stanford.edu

Douglas Garratt

Scientist  
(650) 926-2968
dgarratt@slac.stanford.edu

Georgi Dakovski

Scientist  
(650) 926-5703  
dakovski@slac.stanford.edu

Christina Hampton

Sample Delivery Scientist  
(650) 926-2081
cyh0824@slac.stanford.edu

Giacomo Coslovich

Laser Scientist  
(650) 926-5091  
gcoslovich@SLAC.Stanford.EDU

Matt Bain

Laser Scientist  
(650) 926-4782
mattbain@SLAC.Stanford.EDU

Frank O’Dowd

Instrument Engineer  
(650) 926-3332  
fodowd@slac.stanford.edu

Kayla Ninh

Instrument Area Manager
(650) 926-2934
kninh@slac.stanford.edu

Jyoti Joshi

Instrument Controls Engineer  
(650) 926-3065  
jjoshi@slac.stanford.edu

ChemRIXS Hutch

(650) 926-7943
(650) 926-7947

ChemRIXS Control Room

(650) 926-7468