Add to ORKGThe preconceptual design of an S-band photo-injector system for a Next Linear Collider (NLC) Engineering Test Facility (ETF) at Fermi National Accelerator Laboratory (FNAL) has been completed. A photo-cathode gun will deliver a range of bunch charges up to 4 nC at around 190 MeV. The projected performance is 2.5 π mm-mrad rms normalized transverse emittance at 1 nC and 6.7 π mm-mrad at 3.6 nC bunch charge, for 0.5 mm rms radius spherical bunches with an energy spread of less than 0.1%. We describe the proposed beamline and the performance achieved in end-to-end simulations.
The symmetrized 1.6 cell S-band photocathode gun developed by the BNL/SLAC/UCLA collaboration is in ...
The Next Linear Collider (NLC) being designed at SLAC requires a train of 90 electron bunches 1.4 ns...
Fermilab is currently constructing a superconducting RF (SRF) test linear accelerator at the New Muo...
The preconceptual design of an S-band photo-injector system for a Next Linear Collider (NLC) Enginee...
The Linac Coherent Light Source (LCLS) will use the last portion of the SLAC accelerator as a driver...
A high-brightness photo-injector has been developed at Fermilab in collaboration with the TTF projec...
The Next Generation Photoinjector (NGP) developed by the BNL SLAC / UCLA collaboration was installed...
We are building an S-band photocathode rf gun as an injector to a 30 MeV electron linac for FEL appl...
The Next Linear Collider (NLC) Collaboration is planning to construct an Engineering Test Facility (...
A high brightness electron beam injector system is being developed for light source R&D at NSRRC...
A dedicated low energy (2 to 10 MeV) experimental beam line is now under construction at Brookhaven ...
The TTF Free Electron Laser requires high current electron bunches with small emittances. The beam i...
A key technology issue of energy recovery linac (ERL) devices for high-power free-electron laser (FE...
The Next Linear Collider (NW) Injector System is designed to produce low emittance, 10 GeV electron ...
A key technology issue of energy recovery linac (ERL) devices for high-power free-electron laser (FE...
The symmetrized 1.6 cell S-band photocathode gun developed by the BNL/SLAC/UCLA collaboration is in ...
The Next Linear Collider (NLC) being designed at SLAC requires a train of 90 electron bunches 1.4 ns...
Fermilab is currently constructing a superconducting RF (SRF) test linear accelerator at the New Muo...
The preconceptual design of an S-band photo-injector system for a Next Linear Collider (NLC) Enginee...
The Linac Coherent Light Source (LCLS) will use the last portion of the SLAC accelerator as a driver...
A high-brightness photo-injector has been developed at Fermilab in collaboration with the TTF projec...
The Next Generation Photoinjector (NGP) developed by the BNL SLAC / UCLA collaboration was installed...
We are building an S-band photocathode rf gun as an injector to a 30 MeV electron linac for FEL appl...
The Next Linear Collider (NLC) Collaboration is planning to construct an Engineering Test Facility (...
A high brightness electron beam injector system is being developed for light source R&D at NSRRC...
A dedicated low energy (2 to 10 MeV) experimental beam line is now under construction at Brookhaven ...
The TTF Free Electron Laser requires high current electron bunches with small emittances. The beam i...
A key technology issue of energy recovery linac (ERL) devices for high-power free-electron laser (FE...
The Next Linear Collider (NW) Injector System is designed to produce low emittance, 10 GeV electron ...
A key technology issue of energy recovery linac (ERL) devices for high-power free-electron laser (FE...
The symmetrized 1.6 cell S-band photocathode gun developed by the BNL/SLAC/UCLA collaboration is in ...
The Next Linear Collider (NLC) being designed at SLAC requires a train of 90 electron bunches 1.4 ns...
Fermilab is currently constructing a superconducting RF (SRF) test linear accelerator at the New Muo...