Add to ORKGAn electron recirculator is being developed at the University of Maryland for studying the physics of space-charge dominated beams in circular systems. The E-ring has been designed to transport an electron beam of 10 keV, 100 mA, 50 ns in a smooth circular lattice of 11.5 m in circumference, focused by 72 printed-circuit (PC) quadrupole FODO elecments, and deflected by 36 PC dipoles. This paper reports the progress and status of the E-ring project. I
Over the past year, a baseline design of the electron ring for the eRHIC hadron-lepton collider has ...
The transport of intense beams for advanced accelerator applications with high-intensity beams such ...
Over the past year, a baseline design of the electron ring for the eRHIC hadron-lepton collider has ...
The University of Maryland Electron Ring (UMER) is a low energy, high current recirculator for beam ...
A detailed understanding of the physics of space-charge dominated beams is vital for many advanced a...
Construction is underway on a 3 MV electrostatic accelerator designed to recirculate D.C. electron b...
Results are presented for electron beam transport experiments in a 1-m-long straight section consist...
The University of Maryland electron ring (UMER) is a low-energy, high current recirculator for beam ...
Intense charged particle beams are of great interest to many wide areas of applications ranging from...
The electron cooling project requires a high current electron beam with high reliability to provide ...
A superconducting energy recovery linac (ERL) of 5 to 10 GeV was proposed earlier as an alternative ...
New applications for high energy, high current electron beam processing are continually expanding. T...
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 scaled storage ring using low-energy electrons ...
The authors report the study of a high-current accelerator, capable of producing thin (2 mm) annular...
Over the past year, a baseline design of the electron ring for the eRHIC hadron-lepton collider has ...
The transport of intense beams for advanced accelerator applications with high-intensity beams such ...
Over the past year, a baseline design of the electron ring for the eRHIC hadron-lepton collider has ...
The University of Maryland Electron Ring (UMER) is a low energy, high current recirculator for beam ...
A detailed understanding of the physics of space-charge dominated beams is vital for many advanced a...
Construction is underway on a 3 MV electrostatic accelerator designed to recirculate D.C. electron b...
Results are presented for electron beam transport experiments in a 1-m-long straight section consist...
The University of Maryland electron ring (UMER) is a low-energy, high current recirculator for beam ...
Intense charged particle beams are of great interest to many wide areas of applications ranging from...
The electron cooling project requires a high current electron beam with high reliability to provide ...
A superconducting energy recovery linac (ERL) of 5 to 10 GeV was proposed earlier as an alternative ...
New applications for high energy, high current electron beam processing are continually expanding. T...
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 scaled storage ring using low-energy electrons ...
The authors report the study of a high-current accelerator, capable of producing thin (2 mm) annular...
Over the past year, a baseline design of the electron ring for the eRHIC hadron-lepton collider has ...
The transport of intense beams for advanced accelerator applications with high-intensity beams such ...
Over the past year, a baseline design of the electron ring for the eRHIC hadron-lepton collider has ...