Add to ORKGIt is shown that an annular electron beam may carry six times as much current as a pencil beam for the same beam breakup (BBU) growth. This finding suggests that the rf magnetic field of the breakup mode is far more important han the rf electric field in the excitation of BBU. A proof-of-principle experiment is suggested, and the implications explored. I
Higher accelerating gradients are required for future high-power devices such as the TeV electron li...
We investigate multipass beam breakup (BBU) in a recirculating linear accelerator in the framework o...
Cornell-ERL-06-1 The total current that can be accelerated in an Energy Recovery Linear Accelerator ...
Experiments have been performed to investigate the beam-breakup-up (BBU) instability in high current...
The beam breakup instability (BBU) is one of the most serious problems that plague the design and op...
A 7 cm cathode has been deployed for use on a 3.8 MV, 80 ns (FWHM) Blumlein, to increase the extract...
The beam breakup (BBU) instability has been investigated in high‐current, long‐pulse electron beams ...
The results of an experimental program whose sole objective is to investigate the cumulative beam br...
This paper reports the measurements of beam breakup (BBU) instability performed on the Advanced Test...
In linear accelerators the maximum achievable beam current is often limited by the Beam Breakup (BBU...
This thesis reports the design study of a new type of charged particle accelerator called the Twobet...
When a charged particle travels across the vacuum chamber of an accelerator, it induces electromagne...
Recirculating linear accelerators (linacs) provide a compact and efficient way of accelerating parti...
ERL-06-04 The total current that can be accelerated in an Energy Recovery Linear Accelerator (ERL) c...
Multi-pass, multi-bunch beam-breakup has been long known to be a potential limiting factor for the c...
Higher accelerating gradients are required for future high-power devices such as the TeV electron li...
We investigate multipass beam breakup (BBU) in a recirculating linear accelerator in the framework o...
Cornell-ERL-06-1 The total current that can be accelerated in an Energy Recovery Linear Accelerator ...
Experiments have been performed to investigate the beam-breakup-up (BBU) instability in high current...
The beam breakup instability (BBU) is one of the most serious problems that plague the design and op...
A 7 cm cathode has been deployed for use on a 3.8 MV, 80 ns (FWHM) Blumlein, to increase the extract...
The beam breakup (BBU) instability has been investigated in high‐current, long‐pulse electron beams ...
The results of an experimental program whose sole objective is to investigate the cumulative beam br...
This paper reports the measurements of beam breakup (BBU) instability performed on the Advanced Test...
In linear accelerators the maximum achievable beam current is often limited by the Beam Breakup (BBU...
This thesis reports the design study of a new type of charged particle accelerator called the Twobet...
When a charged particle travels across the vacuum chamber of an accelerator, it induces electromagne...
Recirculating linear accelerators (linacs) provide a compact and efficient way of accelerating parti...
ERL-06-04 The total current that can be accelerated in an Energy Recovery Linear Accelerator (ERL) c...
Multi-pass, multi-bunch beam-breakup has been long known to be a potential limiting factor for the c...
Higher accelerating gradients are required for future high-power devices such as the TeV electron li...
We investigate multipass beam breakup (BBU) in a recirculating linear accelerator in the framework o...
Cornell-ERL-06-1 The total current that can be accelerated in an Energy Recovery Linear Accelerator ...