A. Citterio scite author profile

The SwissFEL X-ray Free Electron Laser (XFEL) facility started construction at the Paul Scherrer Institute (Villigen, Switzerland) in 2013 and will be ready to accept its first users in 2018 on the Aramis hard X-ray branch. In the following sections we will summarize the various aspects of the project, including the design of the soft and hard X-ray branches of the accelerator, the results of SwissFEL performance simulations, details of the photon beamlines and experimental stations, and our first commissioning results.

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A compact and cost-effective hard X-ray free-electron laser driven by a high-brightness and low-energy electron beam

Prat

et al. 2020

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Commissioning experience and beam physics measurements at the SwissFEL Injector Test Facility

Schietinger¹,

Hauff²,

Pal³

et al. 2016

Phys. Rev. Accel. Beams

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The SwissFEL Injector Test Facility operated at the Paul Scherrer Institute between 2010 and 2014, serving as a pilot plant and testbed for the development and realization of SwissFEL, the X-ray Free-Electron Laser facility under construction at the same institute. The test facility consisted of a laser-driven rf electron gun followed by an S-band booster linac, a magnetic bunch compression chicane and a diagnostic section including a transverse deflecting rf cavity. It delivered electron bunches of up to 200 pC charge and up to 250 MeV beam energy at a repetition rate of 10 Hz. The measurements performed at the test facility not only demonstrated the beam parameters required to drive the first stage of an FEL facility, but also led to significant advances in instrumentation technologies, beam characterization methods and the generation, transport and compression of ultra-low-emittance beams. We give a comprehensive overview of the commissioning experience of the principal subsystems and the beam physics measurements performed during the operation of the test facility, including the results of the test of an in-vacuum undulator prototype generating radiation in the vacuum ultraviolet and optical range.

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Novel X -band transverse deflection structure with variable polarization

Craievich¹,

Bopp²,

Braun³

et al. 2020

Phys. Rev. Accel. Beams

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Tuning procedure for traveling wave structures and its application to the C-Band cavities for SPARC photo injector energy upgrade

et al. 2013

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In this paper we illustrate the tuning procedure we implemented to tune the traveling wave structures designed and constructed for the SPARC photo-injector energy upgrade. The procedure has been derived from that proposed and adopted for the CLIC structures at CERN (J. Shi et al., Tuning of clic accelerating structure prototypes at Cern, Proc. of LINAC 2010, Tsukuba, Japan, 2010). In the first part of the paper we go through the analytical formulas also illustrating and discussing an algorithm to tune the input and output couplers. A detailed description of the measurements we have done before and after the tuning of the SPARC C-band structure prototype is then illustrated.

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A. Citterio

SwissFEL: The Swiss X-ray Free Electron Laser

A compact and cost-effective hard X-ray free-electron laser driven by a high-brightness and low-energy electron beam

Commissioning experience and beam physics measurements at the SwissFEL Injector Test Facility

Novel X -band transverse deflection structure with variable polarization

Tuning procedure for traveling wave structures and its application to the C-Band cavities for SPARC photo injector energy upgrade

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