Add to ORKGA tunable, high-accelerating-gradient cavity has been designed for use in the t-f system of the Low Energy Booster (LEB) at the Superconducting Super Collider (SSC). Details 01 the cavity design arc discussed along with low level, swept fre-quency, and high power test results. 1
RF superconducting cavities can work at CW mode or long pulse mode with high accelerating gradient. ...
and A. Peters The linear accelerator technology, based on superconduct-ing L-band (1.3 GHz) cavities...
We report on the recent progress at Jefferson Lab in developing ultra high gradient and high Q{sub 0...
The RF cavity for the Medium Energy Booster (MEB) is required to accept beam from the low energy boo...
The normal conducting booster cavity is intended to in-crease the electron bunch energy in the Photo...
Booster synchrotrons, such as the SSC Low Energy Booster, typically require a megavolt rf system whi...
The design concepts for ferrite-tuned accelerating cavities discussed in this paper differ from conv...
A nine-cell superconducting RF accelerating cavity is designed for the TeV electron linear accelerat...
To provide high quality electron bunches for linear accelerators used in free electron lasers and pa...
Superconducting Radio-Frequency (SRF) cavities are a promising technology for the next generation of...
The upgrade of LEP2 energy to beyond the W boson production threshold required the progressive insta...
We are constructing Superconducting RF Test Facility (STF) at KEK for the R&D of ILC accelerator...
The extensive effort by many of the world's best accelerator personnel which has been required for t...
The LHC RF system, which must handle high intensity (0.5 A d.c.) beams, makes use of superconducting...
Abstract. A 200MHz single-cell superconducting Nb-Cu cavity has been fabricated and tested at 4.2 K ...
RF superconducting cavities can work at CW mode or long pulse mode with high accelerating gradient. ...
and A. Peters The linear accelerator technology, based on superconduct-ing L-band (1.3 GHz) cavities...
We report on the recent progress at Jefferson Lab in developing ultra high gradient and high Q{sub 0...
The RF cavity for the Medium Energy Booster (MEB) is required to accept beam from the low energy boo...
The normal conducting booster cavity is intended to in-crease the electron bunch energy in the Photo...
Booster synchrotrons, such as the SSC Low Energy Booster, typically require a megavolt rf system whi...
The design concepts for ferrite-tuned accelerating cavities discussed in this paper differ from conv...
A nine-cell superconducting RF accelerating cavity is designed for the TeV electron linear accelerat...
To provide high quality electron bunches for linear accelerators used in free electron lasers and pa...
Superconducting Radio-Frequency (SRF) cavities are a promising technology for the next generation of...
The upgrade of LEP2 energy to beyond the W boson production threshold required the progressive insta...
We are constructing Superconducting RF Test Facility (STF) at KEK for the R&D of ILC accelerator...
The extensive effort by many of the world's best accelerator personnel which has been required for t...
The LHC RF system, which must handle high intensity (0.5 A d.c.) beams, makes use of superconducting...
Abstract. A 200MHz single-cell superconducting Nb-Cu cavity has been fabricated and tested at 4.2 K ...
RF superconducting cavities can work at CW mode or long pulse mode with high accelerating gradient. ...
and A. Peters The linear accelerator technology, based on superconduct-ing L-band (1.3 GHz) cavities...
We report on the recent progress at Jefferson Lab in developing ultra high gradient and high Q{sub 0...