Publications
Publication Information
| Title | MAGNETRON R&D FOR HIGH EFFICIENCY CW RF SOURCES FOR INDUSTRIAL ACCELERATORS | ||
| Authors | Richard Nelson, Kevin Jordan, Robert Rimmer, Sarah Overstreet, Bruno Coriton, Charles Moeller, Kyle Thackston, Haipeng Wang | ||
| JLAB number | JLAB-ACC-21-3410 | ||
| LANL number | (None) | ||
| Other number | DOE/OR/23177-5227 | ||
| Document Type(s) | (Meeting) | ||
| Category: | SRF Technology |
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| Associated with EIC: | No | ||
| Supported by Jefferson Lab LDRD Funding: | No | ||
| Funding Source: | High Energy Physics (HEP) | ||
| Other Funding: | DOE OS/NP STTR Grant DE-SC0013203 DE-AC05-06OR23177 | ||
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Meeting Paper compiled for IPAC21 Proceedings Proceedings of IPAC 2021 Edited By Liu Lin, John M. Byrd, Regis Neuenschwander, Renan Picoreti, Volker R. W. Schaa JACOW (2021) Page(s) 2318-2321 | |||
| Publication Abstract: | Further theoretical and experimental studies have been performed on the magnetrons with external reactive loads either with a low-Q RF cavity or with a power combiner like the TM010 mode or Magic-tee type. The frequency pushing by a trimming magnetic field and pulling by the reflection between the magnetron and reactive load have been shown to improve the injection phase locking stability and enhance the locking bandwidth compared to the scheme to a matched load only. This principle has been further studied based on S.C. Chen?s model [1-2], equivalent circuit simulation, analytical calculation and finally compared with experimental data from the magnetron test stands at 2450MHz. | ||
| Experiment Numbers: | other | ||
| Group: | SRF Research & Dev | ||
| Document: | |||
| DOI: | https://doi.org/10.18429/JACoW-IPAC2021-TUPAB348 | ||
| Accepted Manuscript: | tupab348.pdf | ||
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