The PHIN photo-injector test facility is being commissioned at CERN to demonstrate the capability to produce the required beam for the 3rd CLIC Test Facility (CTF3), which includes the production of a 3.5A stable beam, bunched at 1.5 GHz with a relative energy spread of less than 1%. A 90◦ spectrometer is instrumented with an OTR screen coupled to a gated intensified camera, followed by a segmented beam dump for time resolved energy measurements. The following paper describes the transverse and temporal resolution of the instrumentation with an outlook towards single-bunch energy measurements
International audienceThe laser driven RF photo-injectors are recent candidates for high-brightness,...
CERN is a collaborator within the European PHIN project, a joint research activity for Photo injecto...
The electron gun of the CLIC Test Facility 3 (CTF3) produces 15.6µs long pulses with an energy of 14...
The CLIC Test Facility 3 (CTF3) drive beam injector should provide high intensity and high quality e...
A new photo-injector, capable to deliver a long pulse train with a high charge per bunch for CTF3, h...
The high charge PHIN photo injector is studied at CERN as an electron source for the CLIC Test Facil...
The high charge PHIN photo injector is studied at CERN as an electron source for the CLIC Test Facil...
A photoinjector, PHIN (PHotoINjector), has been realized at CERN by a joint effort of several instit...
The high charge (>6μC) electron beam produced in the CLIC Test Facility 3 (CTF3) is accelerated i...
The laser driven RF photo-injectors are recent candidates for high-brightness, low-emittance electro...
In this thesis, the transverse and longitudinal beam properties of the PHIN photoinjector are charac...
The high charge (>6μC) electron beams produced in the CLIC Test Facility 3 (CTF3) is accelerated ...
The high charge (>6ìC) electron beam produced in the CLIC Test Facility 3 (CTF3) is accelerated in f...
The power source of the Compact LInear Collider (CLIC) relies on the generation and deceleration of ...
The CLIC study is based on the so-called two-beam ac-celeration concept and one of the main goals of...
International audienceThe laser driven RF photo-injectors are recent candidates for high-brightness,...
CERN is a collaborator within the European PHIN project, a joint research activity for Photo injecto...
The electron gun of the CLIC Test Facility 3 (CTF3) produces 15.6µs long pulses with an energy of 14...
The CLIC Test Facility 3 (CTF3) drive beam injector should provide high intensity and high quality e...
A new photo-injector, capable to deliver a long pulse train with a high charge per bunch for CTF3, h...
The high charge PHIN photo injector is studied at CERN as an electron source for the CLIC Test Facil...
The high charge PHIN photo injector is studied at CERN as an electron source for the CLIC Test Facil...
A photoinjector, PHIN (PHotoINjector), has been realized at CERN by a joint effort of several instit...
The high charge (>6μC) electron beam produced in the CLIC Test Facility 3 (CTF3) is accelerated i...
The laser driven RF photo-injectors are recent candidates for high-brightness, low-emittance electro...
In this thesis, the transverse and longitudinal beam properties of the PHIN photoinjector are charac...
The high charge (>6μC) electron beams produced in the CLIC Test Facility 3 (CTF3) is accelerated ...
The high charge (>6ìC) electron beam produced in the CLIC Test Facility 3 (CTF3) is accelerated in f...
The power source of the Compact LInear Collider (CLIC) relies on the generation and deceleration of ...
The CLIC study is based on the so-called two-beam ac-celeration concept and one of the main goals of...
International audienceThe laser driven RF photo-injectors are recent candidates for high-brightness,...
CERN is a collaborator within the European PHIN project, a joint research activity for Photo injecto...
The electron gun of the CLIC Test Facility 3 (CTF3) produces 15.6µs long pulses with an energy of 14...
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