Add to ORKGElectro-optic techniques might allow implementing a laserwire scanner for intra-train scanning at the ILC with scanning speed in excess of 100 kHz. A scanner capable of running at such a rate would in fact provide information about the particle beam size in about one hundred different positions along the bunch train (approximately 1ms long for the ILC). The design of an electro-optic deflector capable to scan within 10-100 microsecond is presented, discussed and analytically treated
An Electro-Optic Beam Position Monitor (EO-BPM) is being developed as a high-frequency (up to 10 GHz...
This archive summarizes a working paper and conference proceedings related to laser wire scanner dev...
Laserwires were originally developed to measure micron-sized electron beams via Compton scattering, ...
Electro-optic devices open the possibility of ultra-fast scanning systems for use in intra-train sca...
Electro-optic devices open the possibility of ultra-fast scanning systems for use in intra-train sca...
Laser wires will play an important role as the standard monitor for beam size measurements with micr...
Laser wires will play an important role as the standard monitor for beam size measurements with micr...
A novel wire scanner has been developed with applications at linear accelerators where small beam sp...
The linac at the NSLS Source Development Lab (SDL) provides a high brightness electron beam for the ...
The beam deflection system developed at Fraunhofer IWS can be used for rapid moving of a high power ...
Abstract. Electro optic methods to modulate ultra-short laser pulses using the electric field of a r...
Accurate measurement of the beam phase space is essential for the next generation of electron accele...
A laserwire is a non-invasive, high resolution particle beam size monitor based on Compton scatterin...
High performance TeV energy electron / positron colliders (LC) are the first machines to require onl...
At the HL-LHC, proton bunches will be rotated by crab-cavities close to the interaction regions to m...
An Electro-Optic Beam Position Monitor (EO-BPM) is being developed as a high-frequency (up to 10 GHz...
This archive summarizes a working paper and conference proceedings related to laser wire scanner dev...
Laserwires were originally developed to measure micron-sized electron beams via Compton scattering, ...
Electro-optic devices open the possibility of ultra-fast scanning systems for use in intra-train sca...
Electro-optic devices open the possibility of ultra-fast scanning systems for use in intra-train sca...
Laser wires will play an important role as the standard monitor for beam size measurements with micr...
Laser wires will play an important role as the standard monitor for beam size measurements with micr...
A novel wire scanner has been developed with applications at linear accelerators where small beam sp...
The linac at the NSLS Source Development Lab (SDL) provides a high brightness electron beam for the ...
The beam deflection system developed at Fraunhofer IWS can be used for rapid moving of a high power ...
Abstract. Electro optic methods to modulate ultra-short laser pulses using the electric field of a r...
Accurate measurement of the beam phase space is essential for the next generation of electron accele...
A laserwire is a non-invasive, high resolution particle beam size monitor based on Compton scatterin...
High performance TeV energy electron / positron colliders (LC) are the first machines to require onl...
At the HL-LHC, proton bunches will be rotated by crab-cavities close to the interaction regions to m...
An Electro-Optic Beam Position Monitor (EO-BPM) is being developed as a high-frequency (up to 10 GHz...
This archive summarizes a working paper and conference proceedings related to laser wire scanner dev...
Laserwires were originally developed to measure micron-sized electron beams via Compton scattering, ...