Add to ORKGThe successful operation of a Two-Beam accelerator based on extended relativistic klystrons hinges upon decreasing the cumulative dipole BBU growth from an exponential to a more manageable linear growth rate. We describe the theoretical scheme to achieve this, and a new experiment to test this concept. The experiment utilizes a 1-MeV, 600-Amp, 200-ns electron beam and a short beamline of periodically-spaced rf dipole-mode pillbox cavities and solenoid magnets for transport. Descriptions of the beamline are presented, followed by theoretical studies of the beam transportand dipole-mode growth
Beta Beams could address the needs of long term neutrino oscillation experiments. They can produce e...
The technical challenge for making two-beam accelerators into realizable power sources for high-ener...
We are designing an experiment to study physics, engineering, and costing issues of an extended Rela...
The successful operation of a Two-Beam accelerator based on extended relativistic klystrons hinges u...
Two-beam accelerators based upon relativistic klystron’s (RK’s) have been proposed as power sources ...
Experiments to study beam dynamics for Relativistic Klystrons (RK) are being performed with a 1-MeV,...
Two-beam accelerators based upon relativistic klystrons (RK's) have been proposed as power sources f...
The results of an experimental program whose sole objective is to investigate the cumulative beam br...
Preliminary studies of beam dynamics in a relativistic klystron were done to support a design study ...
This thesis reports the design study of a new type of charged particle accelerator called the Twobet...
Two-beam accelerators (TBAs) have been proposed as efficient power sources for next generation high-...
The term beta-beam has been coined for the production of pure beams of electron neutrinos or their a...
We describe an acceleration gap and FODO quadrupole assembly for a prototype induction accelerator b...
The beam breakup instability (BBU) is one of the most serious problems that plague the design and op...
Two-beam accelerators (TBAs) based upon free-electron lasers (FELs) or relativistic klystrons (RK-TB...
Beta Beams could address the needs of long term neutrino oscillation experiments. They can produce e...
The technical challenge for making two-beam accelerators into realizable power sources for high-ener...
We are designing an experiment to study physics, engineering, and costing issues of an extended Rela...
The successful operation of a Two-Beam accelerator based on extended relativistic klystrons hinges u...
Two-beam accelerators based upon relativistic klystron’s (RK’s) have been proposed as power sources ...
Experiments to study beam dynamics for Relativistic Klystrons (RK) are being performed with a 1-MeV,...
Two-beam accelerators based upon relativistic klystrons (RK's) have been proposed as power sources f...
The results of an experimental program whose sole objective is to investigate the cumulative beam br...
Preliminary studies of beam dynamics in a relativistic klystron were done to support a design study ...
This thesis reports the design study of a new type of charged particle accelerator called the Twobet...
Two-beam accelerators (TBAs) have been proposed as efficient power sources for next generation high-...
The term beta-beam has been coined for the production of pure beams of electron neutrinos or their a...
We describe an acceleration gap and FODO quadrupole assembly for a prototype induction accelerator b...
The beam breakup instability (BBU) is one of the most serious problems that plague the design and op...
Two-beam accelerators (TBAs) based upon free-electron lasers (FELs) or relativistic klystrons (RK-TB...
Beta Beams could address the needs of long term neutrino oscillation experiments. They can produce e...
The technical challenge for making two-beam accelerators into realizable power sources for high-ener...
We are designing an experiment to study physics, engineering, and costing issues of an extended Rela...