Author: Dai, X.L.
Paper Title Page
WEC3O03
 Femtosecond Timing System Development in SSRF  
 
  • X.L. Dai, M. Liu, C.X. Yin, L.Y. Zhao
    SINAP, Shanghai, People's Republic of China
  
  Funding: The project of femtosecond timing system was supported by the National Natural Science Foundation of China (No. 11305246).
The cur­rent tim­ing sys­tem in SSRF can­not sat­isfy the re­quire­ment of the pump-probe ex­per­i­ment in SSRF Phase-II pro­ject, so the fem­tosec­ond tim­ing sys­tem was de­vel­oped to re­al­ize 100fs jit­ter and 200fs phase drift in the long term. The fem­tosec­ond tim­ing sys­tem is based on op­ti­cal fiber net­works and laser fre­quency sta­bi­liz­ing sys­tem. To achieve less than 100fs jit­ter, the nar­row line-width Con­tin­ues Wave (CW) laser is used to trans­mit RF sig­nals in op­ti­cal fiber net­works. In order to achieve less than 200fs phase drift in the long term, the phase change in the op­ti­cal fiber net­works is de­tected by het­ero­dyne in­ter­fer­om­e­ter and com­pen­sated by LLRF sys­tem to gen­er­ate tim­ing sig­nals. The de­sign and pre­lim­i­nary test re­sult of fem­tosec­ond tim­ing sys­tem is pre­sented in this paper. 		 
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