54 research outputs found
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Start-Up of FEL Oscillator from Shot Noise
In free-electron laser (FEL) oscillators, as inself-amplified spontaneous emission (SASE) FELs, the buildup of cavitypower starts from shot noise resulting from the discreteness ofelectronic charge. It is important to do the start-up analysis for thebuild-up of cavity power in order to fix the macropulse width from theelectron accelerator such that the system reaches saturation. In thispaper, we use the time-dependent simulation code GINGER [1]toperformthis analysis. We present results of this analysis for theparameters of the Compact Ultrafast TErahertz FEL (CUTE-FEL) [2]beingbuilt atRRCAT
LUX: a design study for a linac-/laser-based ultrafast x-ray source
A warm, relativistic fluid theory of a nonequilibrium, collisionless plasma is developed to analyze nonlinear plasma waves excited by intense drive beams. The maximum amplitude and wavelength are calculated for nonrelativistic plasma temperatures and arbitrary plasma wave phase velocities. The maximum amplitude is shown to increase in the presence of a laser field. These results set a limit to the achievable gradient in plasma-based accelerators
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Space-Charge Dominated Beam Transport in Magnetic Quadrupoles with Large Aperture Ratios
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Space-Charge Dominated Beam Transport in Magnetic Quadrupoles with Large Aperture Ratios
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Beam Dynamics Studies with the MBE-4 Heavy-Ion Linear Induction Accelerator
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Numerical Simulation Studies of the LBNL Heavy-Ion Beam Combiner Experiment
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Beam Dynamics Studies with the MBE-4 Heavy-Ion Linear Induction Accelerator
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Life on the Edge: Squirrel-Cage Fringe Fields and Their Effects in the MBE-4 Combiner Experiment
The MBE-4 combiner experiment employs an electrostatic combined-function focusing/bending element, the so-called ``squirrel-cage`` just before the actual merging region. There has been concern that non-linear fields, primarily in the fringe regions at the beginning and end of the cage, may be strong enough to lead to significant emittance degradation. This note present the results of numerical calculations which determined the anharmonic, non-linear components of the 3D fields in the cage and the resultant, orbit-integrated effects upon the MBE-4 beamlets. We find that while the anharmonic effects are small compared to the dipole deflection, the resultant transverse emittance growth is significant when compared to the expected value of the initial emittance of the individual beamlets
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