Design and Integration of the Optical Reference Module at 1.3 GHz for FLASH and the European XFEL

Janas, Ewa; Czuba, Krzysztof; Czwalinna, Marie; Felber, Matthias; Kownacki, Przemysław; Lamb, Thorsten; Schlarb, Holger; Schulz, Sebastian; Sikora, Dominik; Sydlo, Cezary; Szewiński, Jaroslaw; Titberidze, Mikheil; Zummack, Falco

doi:10.18429/JACoW-IPAC2014-WEPRI115

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RIS citation export for WEPRI115: Design and Integration of the Optical Reference Module at 1.3 GHz for FLASH and the European XFEL

TY - CONF
AU - Janas, E.
AU - Czuba, K.
AU - Czwalinna, M.K.
AU - Felber, M.
AU - Kownacki, P.
AU - Lamb, T.
AU - Schlarb, H.
AU - Schulz, S.
AU - Sikora, D.
AU - Sydlo, C.
AU - Szewiński, J.
AU - Titberidze, M.
AU - Zummack, F.
ED - Petit-Jean-Genaz, Christine
ED - Arduini, Gianluigi
ED - Michel, Peter
ED - Schaa, Volker RW
TI - Design and Integration of the Optical Reference Module at 1.3 GHz for FLASH and the European XFEL
J2 - Proc. of IPAC2014, Dresden, Germany, June 15-20, 2014
C1 - Dresden, Germany
T2 - International Particle Accelerator Conference
T3 - 5
LA - english
AB - In this paper we present recent progress on the integration and implementation of the optical reference module (REFM-OPT) for the free-electron lasers FLASH and European XFEL. In order to achieve high energy stability and low arrival time jitter of the electron beam, the accelerator requires an accurate low-level RF (LLRF) field regulation and a sophisticated synchronization scheme for various devices along the facility. The REFM-OPT is a 19” module which is responsible for resynchronizing the 1.3 GHz reference signal for the LLRF distributed by coaxial cables to a phase-stable signal of the optical synchronization system. The module provides a 1.3 GHz output signal with low phase noise and high long-term stability. Several sub-components of the REFM-OPT designed specifically for this module are described in detail. The readout electronics of the high-precision Laser-to-RF phase detector are presented as well as the integration of this key component into the 19” module. Additionally, we focus on design solutions which assure phase stability and synchronization of the 1.3 GHz signal at several high power outputs of the module.
PB - JACoW
CP - Geneva, Switzerland
SP - 2768
EP - 2770
KW - electronics
KW - laser
KW - detector
KW - controls
KW - LLRF
DA - 2014/07
PY - 2014
SN - 978-3-95450-132-8
DO - 10.18429/JACoW-IPAC2014-WEPRI115
UR - http://jacow.org/ipac2014/papers/wepri115.pdf
ER -