Add to ORKGThe transport of intense beams for advanced accelerator applications with high-intensity beams such as heavy-ion inertial fusion, spallation neutron sources, and intense light sources requires tight control of beam characteristics over long distances. The University of Maryland Electron Ring (UMER), which uses low energy, high current electron beams to model the transport physics of intense space-charge-dominated beams, employs real-time beam characterization and control in order to optimize beam quality throughout the strong focusing lattice. We describe in this dissertation the main beam control techniques used in UMER, which include optimal beam steering by quadrupole scans, beam rotation correction using a skew corrector, rms envelope m...
Construction has recently begun on the University of Maryland Electron Ring (UMER) [1]. This system ...
An electron recirculator is being developed at the University of Maryland for studying the physics o...
This report describes modeling of intense electron and ion beams in the space charge dominated regim...
Many applications of particle accelerators require beams with high intensity and low emittance in a ...
A detailed understanding of the physics of space-charge dominated beams is vital for many advanced a...
Intense charged particle beams are of great interest to many wide areas of applications ranging from...
The University of Maryland Electron Ring (UMER) is a low energy, high current recirculator for beam ...
The University of Maryland Electron Ring (UMER) is built as a low-cost testbed for intense beam phys...
Intense charged particle beams are of great interest to many wide areas of applications ranging from...
The concepts of the advanced accelerators and light source rely on the production of bright electron...
As the accelerator frontier shifts from high energy to high intensity, accelerator facilities are de...
The characterization of the transverse phase space of beams is a fundamental requirement for particl...
Intense charged particle beams are of great interest to many wide areas of application ranging from ...
The University of Maryland electron ring (UMER) is a low-energy, high current recirculator for beam ...
We present detailed calculations of RMS-envelope matching over a broad range of beam intensities for...
Construction has recently begun on the University of Maryland Electron Ring (UMER) [1]. This system ...
An electron recirculator is being developed at the University of Maryland for studying the physics o...
This report describes modeling of intense electron and ion beams in the space charge dominated regim...
Many applications of particle accelerators require beams with high intensity and low emittance in a ...
A detailed understanding of the physics of space-charge dominated beams is vital for many advanced a...
Intense charged particle beams are of great interest to many wide areas of applications ranging from...
The University of Maryland Electron Ring (UMER) is a low energy, high current recirculator for beam ...
The University of Maryland Electron Ring (UMER) is built as a low-cost testbed for intense beam phys...
Intense charged particle beams are of great interest to many wide areas of applications ranging from...
The concepts of the advanced accelerators and light source rely on the production of bright electron...
As the accelerator frontier shifts from high energy to high intensity, accelerator facilities are de...
The characterization of the transverse phase space of beams is a fundamental requirement for particl...
Intense charged particle beams are of great interest to many wide areas of application ranging from ...
The University of Maryland electron ring (UMER) is a low-energy, high current recirculator for beam ...
We present detailed calculations of RMS-envelope matching over a broad range of beam intensities for...
Construction has recently begun on the University of Maryland Electron Ring (UMER) [1]. This system ...
An electron recirculator is being developed at the University of Maryland for studying the physics o...
This report describes modeling of intense electron and ion beams in the space charge dominated regim...