TIARA WP8 Status M. Biagini, INFN-LNF, for WP8 TIARA Mid-Term Meeting

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Presentation transcript:

TIARA WP8 Status M. Biagini, INFN-LNF, for WP8 TIARA Mid-Term Meeting Madrid, June 13th 2012

WP8 – HGA WP coordinator: M. Biagini (INFN). WP deputy: A. Gallo (INFN) Goal: energy upgrade of the Frascati SPARC test-facility linac by designing, constructing and commissioning 2 C-band (f=5712 MHz) TW high-gradient accelerating structures Partners: INFN, PSI, University of Rome “La Sapienza” as sub-contractor Duration: 3 years Work Breakdown: WP8.1 : Study of SPARC upgrade in Energy (INFN) WP8.2 : RF Low level Electronics for SPARC (PSI) WP8.3 : Construction and test of 2 C-band sections (INFN)

SPARC @ LNF SPARC: Photoinjector with low emittance RF gun, 3 S-band sections for 170 MeV electrons, undulators for FEL studies

SPARC upgrade (hybrid S-C band) TIARA

Task 8.1, 8.3 – C-band sections at LNF: status of design and fabrication The cells of the first accelerating structure prototype have been fabricated 2) The input/output couplers of the first accelerating structure prototype have been fabricated and the brazing of the input and output couplers with vacuum stainless steel flanges has been done

3) Preliminary RF measurements of pre-assembled structures (few cells + input and output couplers) have been done (see Fig. A). They are used to characterize the cells and monitor the quality of the input and output coupler realization. An example of measured accelerating field in magnitude and phase is given in Fig. B 4) The cells of the second accelerating structure are still under fabrication 5) The input/output couplers of the second accelerating structure are still under fabrication Fig. B Fig. A

Task 8.3 – C-band sections fabrication Cell in the oven for brazing Vacuum leak test after brazing sensibility 10-10

Insert cells into the vacuum oven Insert rings for brazing Stack completed Coupling cells in a stack for brazing

Task 8.2 - RF Low Level Electronics for SPARC Task: design a flexible and high performance Low Level RF system for 5712 MHz (C-band) The control of high gradient C-band accelerating structures will be achieved by a digital low level RF (LLRF) system where all RF signals are down-converted to intermediate frequencies which are then digitized and processed on powerful digital processing platforms. The drive signal is finally up-converted to control the RF high power chain This system is studied and realized at PSI and will be tested at SPARC System layout scope of the WP 8.2 T. Schilcher

This topic will be discussed by Manuel Broennimann (PSI) in the second half of my time slot

Task 8.2 - LLRF at PSI  Milestone delayed Request from PSI to move Milestone 32 (RF-LLE-P) from Dec. 2012 to June 2013 (see letter from PSI Task leader T. Schilcher) Due to the tight specifications of the system the design work took longer than predicted, and an RF engineer who should have supported the senior RF engineer in the design has left PSI. As a consequence, a replacement needs to be hired and requires about 6 months to resume the work In the meanwhile, the design tasks of the RF front-end modules can only be processed sequentially instead of parallel as originally foreseen PSI is confident to deliver a C-band LLRF system which meets the specifications by the latest June 2013 This delay (if kept to 6 months) means that the LLRF system will not be tested before its installation on SPARC. This may not represent a real problem, but the delay should not exceed the 6 months Discussion on this topic will be carried out during the WP8 parallel session today

Milestones and time schedule Num Short name Description Month Status* MS29 HARDW-A Purchase of crucial hardware components 6 Achieved MS30 ACC-D Design of accelerator structures 18 Done at 90% MS31 RF-LLE-D Design LLRF MS32 RF-LLE-P First LLRF prototype 24 In progress (to be delayed by 6 months)

Conclusions Tasks 8.1 and 8.3 are proceeding on schedule, procurement of hardware accomplished, design of cavities accomplished, assembling and brazing of cells in progress Task 8.2, design of LLRF system done Milestone 32 (LLRF prototype ready, PSI): a 6 month delay will allow for delivering the LLRF prototype with all specifications met