Eye catcher

ELBE SRF Gun II - New High Gradient SRF Gun, 2009 – Today

After the proof-of-principle demonstration of the world’s first SRF gun operation for a superconducting accelerator i.e. the ELBE LINAC,A second project started with financial support of the German Federal Ministry of Education and Research. The main goal is to achieve high average current (1 mA) and low emittance (1 mm mrad @ 77 pC) for the ELBE LINAC as well as to test new semiconductor cathodes within the BMBF-PCHB project

 new gun p1

The main task is to reach the designed specifications with respect to the intrinsic quality factor and the maximum acceleration gradient of the niobium cavity. To meet this goal, an improved cleaning has been applied, but also other modifications, based on the experiences obtained by the previously installed ACC300 cavity, were taken into account [1, 2]. Another significant change is a superconducting solenoid which is integrated into the cryomodule of the gun[3]. Its cooling is realized by a the same helium supply line cooling the cavity while its fine positioning is done by thermally isolated steppors. The whole module is currently under assembly with the commissioning expected to be in summer 2014 [4].

The JLabFG cavity

The heart of the SRF gun II photo injector is the new JLabFG cavity which is again a 3.5-cell cavity made from so called fine grain niobium. It was built and tested in collaboration with Thomas Jefferson Laboratory [5] until late 2013. In order to reduce the sensitivity to helium pressure fluctuations and microphonics, the half-cell of the cavity was equipped with additional stiffeners (green parts of the cavity in the picture below).

new gun cavity

Milestones

  • Jun. 2010:     JLabFG cavity manufacturing finished

  • Dec. 2010:     field- and frequency tuning

  • Aug.2011:      first vertical tests (Epeak = 39 MV/m)

  • Feb. 2012:     helium vessel welding and vertical test (Epeak = 41 MV/m)

  • Nov. 2013:     final vertical test (Epeak = 41 MV/m) and string assembly

  • Apr. 2014:      module assembly (see picture below) and commissioning

new install

References:

[1] P. Murcek et al., Modified 3½-Cell SC Cavity Made of Large Grain Niobium for the FZD SRF Photoinjector, Proc. SRF 2009 Conference, Sept. 20-25, 2009, Berlin & Dresden, Germany.

[2] P. Murcek et al., Modified SRF Photoinjector for the ELBE at HZDR, 15th International Conference on RF Superconductivity, 25.-29.07.2011, Chicago, USA.

[3] H. Vennekate et al., Emittance Compensation for an SRF Photo Injector, SRF 2013 – 16th Int. Conf. on RF Superconductivity, September 23-27, 2013, Paris, France.

[4] P. Murcek et al., The SRF Photoinjector at ELBE – Design and Status 2013, SRF 2013 – 16th Int. Conf. on RF Superconductivity, September 23-27, 2013, Paris, France.

[5] A. Arnold et al., Fabrication, Tuning, Treatment and Testing of Two 3.5 Cell Photo-Injektor Cavities for the ELBE Linac, 15th International Conference on RF Superconductivity, 25.-29.07.2011, Chicago, USA.