Field emission is one of the key issues in superconducting RF for particle accelerators. When present, it limits operating gradient directly or via induced heat load at 2K. In order to minimize particulate contamination of and thus field emission in the CEBAF SRF cavities during assembly, a cold ceramic RF window was placed very close to the accelerating cavity proper. As an unintended consequence of this, the window is charged by field-emitted electrons, making it possible to monitor and model field emission in the CEBAF cavities since in-tunnel operation began. From January 30, 1995, through February 10, 2003, there were 64 instances of spontaneous onset or change in cavity field emission with a drop in usable gradient averaging 1.4 (sigm...
Field emission in cavities requires electric fields that can be high enough to damage materials. We ...
Limitations on the maximum achievable accelerating gradient of microwave cavities can influence the ...
The MuCool Experiment has been continuing to take data with 805 and 201 MHz cavities in the MuCool T...
Electron field emission limits the accelerating gradient in superconducting cavities. The present pa...
Electromagnetic fields of the superconducting 5-cell CEBAF cavity with its fundamental power coupler...
Several methods have been employed to improve detection of field emissions in superconducting radio ...
High radio-frequency (rf) losses measured for cavities in original Continuous Electron Beam Accelera...
Systematic studies are in progress for understanding, controlling and eliminating field emission(FE)...
The useful performance range of the superconducting rf (SRF) cavities in the CEBAF accelerator at Je...
The ever-growing demand for higher RF gradients has considerably increased the risk of breakdown i...
Field emission control, mitigation, and reduction is critical for reliable operation of high gradien...
The performance of RF windows in the input couplers 01 accclcrating cavities is frequently limited b...
Electron field emission limiting the accelerating gradient in superconducting cavities remains the d...
CEBAF at Jefferson Lab is striving to achieve its maximum reliability at the maximum deliverable ene...
A CEBAF superconducting rf cavity was instrumented to examine RF window behavior at 2K. Of special i...
Field emission in cavities requires electric fields that can be high enough to damage materials. We ...
Limitations on the maximum achievable accelerating gradient of microwave cavities can influence the ...
The MuCool Experiment has been continuing to take data with 805 and 201 MHz cavities in the MuCool T...
Electron field emission limits the accelerating gradient in superconducting cavities. The present pa...
Electromagnetic fields of the superconducting 5-cell CEBAF cavity with its fundamental power coupler...
Several methods have been employed to improve detection of field emissions in superconducting radio ...
High radio-frequency (rf) losses measured for cavities in original Continuous Electron Beam Accelera...
Systematic studies are in progress for understanding, controlling and eliminating field emission(FE)...
The useful performance range of the superconducting rf (SRF) cavities in the CEBAF accelerator at Je...
The ever-growing demand for higher RF gradients has considerably increased the risk of breakdown i...
Field emission control, mitigation, and reduction is critical for reliable operation of high gradien...
The performance of RF windows in the input couplers 01 accclcrating cavities is frequently limited b...
Electron field emission limiting the accelerating gradient in superconducting cavities remains the d...
CEBAF at Jefferson Lab is striving to achieve its maximum reliability at the maximum deliverable ene...
A CEBAF superconducting rf cavity was instrumented to examine RF window behavior at 2K. Of special i...
Field emission in cavities requires electric fields that can be high enough to damage materials. We ...
Limitations on the maximum achievable accelerating gradient of microwave cavities can influence the ...
The MuCool Experiment has been continuing to take data with 805 and 201 MHz cavities in the MuCool T...