Add to ORKGAbstract A 352-MHz fast-ferrite tuner, manufactured by Advanced Ferrite Technology, was tested on a single-cell rf cavity at the Advanced Photon Source. Low-power rf testing was performed on the tuner-cavity combination to evaluate tuning range, bandwidth, stability, and compatibility with existing Advanced Photon Source lowlevel rf hardware. The test system comprises a single-cell copper rf cavity, a bipolar DC bias supply for the ferrite tuner, a water flow and temperature metering and interlock system, and a low-level rf cavity tuning loop consisting of an rf phase detector and a PID amplifier. Test data will be presented
A coaxial blade tuner has been selected for the 1.3GHz SRF cavities of the Fermilab SRF Accelerator ...
Traditional ferrite loaded cavity frequency tuning systems are operated with the ferrite dc bias mag...
A 6MHz, 3dB ferrite directional coupler was designed to perform the automatic controlling for the ac...
A 352-MHz fast-ferrite rf cavity tuner, manufactured by Advanced Ferrite Technology, was high-power ...
In the frame of the LHC Injector Upgrade program involving the existing 80 MHz cavities in the CERN ...
This paper presents the design of a ferrite tuner operating at 52.88 MHz which provides fast tuning ...
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A description is given of the ferrite biasing system for the four tuned radio frequency cavities of ...
A novel ferroelectric frequency tuner was developed by the Ornega-P company and was tested at the Br...
A FerroElectric Fast Reactive Tuner (FE-FRT) for superconducting radio frequency cavities offers sev...
Design, analysis, and low-power tests are described on a 1.3 GHz ferroelectric tuner that could find...
Conventional ferrite-tuned cavities operate either with bias fields that are orthogonal or parallel ...
The GSI SIS100 project requires very high accelerating voltages. With ferrite-tuned cavities the gap...
The Omega-P SBIR project described in this Report has as its goal the development, test, and evaluat...
A coaxial blade tuner has been selected for the 1.3GHz SRF cavities of the Fermilab SRF Accelerator ...
Traditional ferrite loaded cavity frequency tuning systems are operated with the ferrite dc bias mag...
A 6MHz, 3dB ferrite directional coupler was designed to perform the automatic controlling for the ac...
A 352-MHz fast-ferrite rf cavity tuner, manufactured by Advanced Ferrite Technology, was high-power ...
In the frame of the LHC Injector Upgrade program involving the existing 80 MHz cavities in the CERN ...
This paper presents the design of a ferrite tuner operating at 52.88 MHz which provides fast tuning ...
A novel tuner has been developed by the Omega-P company to achieve fast control of the accelerator R...
The design concepts for ferrite-tuned accelerating cavities discussed in this paper differ from conv...
A description is given of the ferrite biasing system for the four tuned radio frequency cavities of ...
A novel ferroelectric frequency tuner was developed by the Ornega-P company and was tested at the Br...
A FerroElectric Fast Reactive Tuner (FE-FRT) for superconducting radio frequency cavities offers sev...
Design, analysis, and low-power tests are described on a 1.3 GHz ferroelectric tuner that could find...
Conventional ferrite-tuned cavities operate either with bias fields that are orthogonal or parallel ...
The GSI SIS100 project requires very high accelerating voltages. With ferrite-tuned cavities the gap...
The Omega-P SBIR project described in this Report has as its goal the development, test, and evaluat...
A coaxial blade tuner has been selected for the 1.3GHz SRF cavities of the Fermilab SRF Accelerator ...
Traditional ferrite loaded cavity frequency tuning systems are operated with the ferrite dc bias mag...
A 6MHz, 3dB ferrite directional coupler was designed to perform the automatic controlling for the ac...