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Scientific Opportunities for Ultrafast Hard X-rays at High Repetition Rate: An Energy Upgrade of LCLS-II, 26-27 September 2016

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SLAC Conferences, Workshops & Symposiums > Scientific Opportunities for Ultrafast Hard X-rays at High Repetition Rate: An Energy Upgrade of LCLS-II, 26-27 September 2016

Scientific Opportunities for Ultrafast Hard
X-rays at
High Repetition Rate:
An Energy Upgrade of LCLS-II

September 26-27, 2016
Building 53, Panofsky Auditorium
SLAC National Accelerator Laboratory
Menlo Park, CA

 The LCLS-II Project now underway at SLAC represents a major advance in X-ray laser capabilities that will enable compelling new science opportunities as identified by the user community [1]. When it becomes operational in 2020/21 this next-generation facility will exploit advanced superconducting accelerator technology (continuous-wave RF linac at 4 GeV) and tunable undulators to provide ultrafast coherent X-rays in a uniformly-spaced train of pulses with programmable repetition rates of up to 1 MHz and tunable photon energies from 0.25 to 5 keV.

Looking to the future, the proposed energy upgrade of LCLS-II to 8 GeV (LCLS-II-HE) promises to open entirely new areas of science by providing X-ray energies extending beyond 12 keV to enable high repetition-rate studies of atomic, electronic, and chemical dynamics at the atomic scale.

The objective of this workshop is to further develop the science case for this proposed upgrade, and refine the technical requirements to ensure maximum scientific impact. The results of this workshop will will help guide the design and performance capabilities of the upgraded facility; and will inform the planning for new future scientific instrumentation.

[1] LCLS-II Science Opportunities Document (2015)

 



 
 
Breakout Sessions:
  1. Coupled dynamics of energy flow: Molecular structure and charge
    • Charge transfer, model molecular photocatalysts, natural and artificial photosynthesis
  2. Catalysis: Correlated chemical reactivity & structural dynamics
    • Homogeneous and heterogeneous catalysis, interfacial and geo/environmental chemistry
  3. Materials Physics: Heterogeneity, nonequilibrium dynamics and spontaneous fluctuations
  4. Quantum Materials
  5. Imaging Biological Function and Structural Dynamics

 

Mike Dunne - LCLS Director
Robert Schoenlein - LCLS
Jerry Hastings - LCLS
Phil Heimann - LCLS

 

 

SLAC SLAC National Accelerator Laboratory, Menlo Park, CA
Operated by Stanford University for the U.S. Dept. of Energy