TY  - CONF
AU  - Barbanotti, Serena
AU  - Walker, Nicholas John
AU  - Branlard, Julien
AU  - Steder, Lea
AU  - Reschke, Detlef
AU  - Jensch, Kay
AU  - Schnautz, Tobias
AU  - Weise, Hans
AU  - Kostin, Denis
TI  - THE PATH TO HIGH DUTY CYCLE AT EuXFEL:CRYOMODULE DEVELOPMENTS
M1  - PUBDB-2025-04425
PY  - 2025
AB  - The European XFEL is in operation since 2017 with a maximum energy of 17.5 GeV in short-pulse (SP) mode, consisting of 0.65-ms long bunch trains at 10 Hz repetition rate. The accelerator can deliver up to 2700 electron bunches every 100 ms, with a spacing between bunches of 220 ns.After eight years of successful operation the accelerator team, with strong support from the XFEL strategy process, is working to define an accelerator upgrade scenario for possible implementation in the next decade.The main goal of the upgrade is to facilitate more bunches per second with larger bunch spacing while maintaining the high energy of the beam, a world record amongst FEL machines. Possible scenarios include continuous-wave (CW) and long-pulse operating modes, collectively referred to as high duty cycle (HDC).This paper describes the different operating modes un-der investigation and the R</td><td width="150">
AB  - D activities ongoing at DESY to support the upgrade. The main focus of the pa-per is on the cryomodule and cavity design modifications, while also giving a brief introduction of the other challenging aspects connected to the upgrade.
T2  - The 22nd International Conference on RF Superconductivity
CY  - 21 Sep 2025 - 26 Sep 2025, Hamburg (DE)
Y2  - 21 Sep 2025 - 26 Sep 2025
M2  - Hamburg, DE
LB  - PUB:(DE-HGF)6
UR  - https://bib-pubdb1.desy.de/record/639324
ER  -