25–30 Aug 2024
Hilton Chicago
America/Chicago timezone

On forced RF generation of CW magnetrons for SRF accelerators

TUPB092
27 Aug 2024, 16:00
2h
Boulevard (Hilton Chicago)

Boulevard

Hilton Chicago

720 South Michigan Ave Chicago, IL 60605 USA
Poster Presentation MC4.6 RF power sources and power couplers Tuesday Poster Session

Speaker

Gregory Kazakevich (Muons, Inc)

Description

CW magnetrons, initially developed for industrial RF heaters, were suggested to power RF cavities of superconducting accelerators due to their higher efficiency and lower cost than traditionally used klystrons, IOTs or solid-state amplifiers. RF amplifiers driven by a master oscillator serve as coherent RF sources. CW magnetrons are regenerative RF generators with a huge regenerative gain. This causes regenerative instability with a large noise when a magnetron operates with the anode voltage above the threshold of self-excitation. Traditionally for stabilization of magnetrons is used injection locking by a quite small signal. Then the magnetron except the injection locked oscillations may generate noise. This may preclude use of standard CW magnetrons in some SRF accelerators. Recently we developed briefly described below a mode for forced RF generation of CW magnetrons when the magnetron startup is provided by the injected forcing signal and the regenerative noise is suppressed. The mode is most suitable for powering high Q-factor SRF cavities.

Primary author

Gregory Kazakevich (Muons, Inc)

Co-authors

Gennady Romanov (Fermi National Accelerator Laboratory) Rolland Johnson (MuPlus, Inc.) Timergali Khabiboulline (Fermi National Accelerator Laboratory) Vyacheslav Yakovlev (Fermi National Accelerator Laboratory) Yaroslav Derbenev (Thomas Jefferson National Accelerator Facility)

Presentation materials

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