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Femtosecond timing distribution and control for next generation accelerators and light sources

Technical Report ·
DOI:https://doi.org/10.2172/1126513· OSTI ID:1126513
 [1]
  1. Idesta Quantum Electronics, LLC, Newton, NJ (United States); Idesta Quantum Electronics, LLC
+ Show Author Affiliations

Femtosecond Timing Distribution At LCLS Free-electron-lasers (FEL) have the capability of producing high photon flux from the IR to the hard x-ray wavelength range and to emit femtosecond and eventually even attosecond pulses. This makes them an ideal tool for fundamental as well as applied re-search. Timing precision at the Stanford Linear Coherent Light Source (LCLS) between the x-ray FEL (XFEL) and ultrafast optical lasers is currently no better than 100 fs RMS. Ideally this precision should be much better and could be limited only by the x-ray pulse duration, which can be as short as a few femtoseconds. An increasing variety of science problems involving electron and nuclear dynamics in chemical and material systems will become accessible as the timing improves to a few femtoseconds. Advanced methods of electron beam conditioning or pulse injection could allow the FEL to achieve pulse durations less than one femtosecond. The objective of the work described in this proposal is to set up an optical timing distribution system based on mode locked Erbium doped fiber lasers at LCLS facility to improve the timing precision in the facility and allow time stamping with a 10 fs precision. The primary commercial applications for optical timing distributions systems are seen in the worldwide accelerator facilities and next generation light sources community. It is reasonable to expect that at least three major XFELs will be built in the next decade. In addition there will be up to 10 smaller machines, such as FERMI in Italy and Maxlab in Sweden, plus the market for upgrading already existing facilities like Jefferson Lab. The total market is estimated to be on the order of a 100 Million US Dollars. The company owns the exclusive rights to the IP covering the technology enabling sub-10 fs synchronization systems. Testing this technology, which has set records in a lab environment, at LCLS, hence in a real world scenario, is an important corner stone of bringing the technology to market.

Research Organization:
Idesta Quantum Electronics, LLC, Newton, NJ (United States)
Sponsoring Organization:
USDOE
DOE Contract Number:
SC0004702
OSTI ID:
1126513
Report Number(s):
DOE F 241.3-IQE-Final
Country of Publication:
United States
Language:
English

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Related Subjects

43 PARTICLE ACCELERATORS
Free Electron Laser
LCLS
femtosecond timing distribution
next generation light sources
re-mote synchronization