References
- Di Giacomo M. Solid state RF amplifiers for accelerator application. Particle Accelerator Conference (PAC09), Vancouver, Canada. Paper TU4RAI01; 2009 May 4–8.
- Marchand P, Ruan T, Ribeiro F, Lopes R. High power 352 MHz solid state amplifiers developed at the Synchrotron SOLEIL. Phys. Rev. STAB. 2007;10:112001-1–112001-7.
- Jacob J, Mercier JM, Langlois M, Gautier G. 352.2 MHz 150 kW solid state amplifiers at the ESRF. 2nd International Particle Accelerator Conference (IPAC 2011), San Sebastian; Spain. Paper MOPC005; 2011 Sept 4–9.
- NXP Semiconductors Application Note, BLF578 demo for 352 MHz 1 kW CW power, 20 Nov 2012. Available from: http://www.nxp.com/documents/application_note/AN10967.pdf.
- Freescale Semiconductor Technical Data, Rf Power LDMOS Transistors, March 2014. Available from:http://cache.freescale.com/files/rf_if/doc/data_sheet/MRFE6VP61K25H.pdf.
- Pozar DM. Microwave engineering. 4th ed. New York (NY): Wiley; 2012.
- Harvey AF. Microwave engineering. New York (NY): Academic Press; 1963.
- Milovanov OS, Sobenin NP. RF engineering. Moscow: EnergoAtomIzdat; 2007 . Russian.
- Jacob J, Mercier J-M, Langlois M. Implementation of high power RF solid state amplifiers (SSAs) & development of innovative concepts at the ESRF. TIARA Workshop on RF Power Generation, Uppsala, Sweden; 2013 June 17–19.
- Ghanadi M. A new compact broadband radial power combiner [PhD thesis]. Berlin: Technical University of Berlin; 2012.
- Harvey J, Brown ER, Rutledge DB, York RA. Spatial power combining for high-power transmitters. Microwave. 2000;12:48–59.
- Langlois M. Development of solid state amplifiers at ESRF. 16th Meeting of the RF Experts of the European Synchrotron Light Sources, Barcelona, Spain; 2012 Oct 9–10.
- Wadhwa CL. High voltage engineering. 2nd ed. New Delhi: New Age International; 2007.
- Acampora AS, Sproul PT. Waveguide breakdown effects at high average power and long pulse length. Bell Syst. Tech. J. 1972;51:2065–2091.
- Kilpatrick WD. Criterion for vacuum sparking designed to include both RF and DC. Rev. Sci. Instrum. 1957;28:824–826.
- Grudiev A, Calatroni S, Wuensch W. A new local field quantity describing the high gradient limit of accelerating structures. Phys. Rev. ST Accel. Beams. 2009;10:102001-1–102001-9.
- Peggs S, editor. ESS technical design report. Lund: ESS; 2013.
- Li X-Q, Liu Q-X, Zhang JQ. A high-power low-loss multiport radial waveguide power divider. Prog. Electromagn. Res. Lett. 2012;31:189–198.
- https://www.cst.com.
- Belomestnykh S. Review of high-power CW couplers for superconducting cavities. Workshop on High-Power Couplers for Superconducting Accelerators. Jefferson Lab, Newport News, Virginia, USA. Paper SRF 021105-09; 2002 Oct 30 – Nov 1.
- Butorin VM. The doorknob transformer. Radiophys. Quantum Electron. 1992;35:529–535.
- Vainshtein LA. Electromagnetic waves. Moscow: Soviet Radio; 1988.
- Fujisawa K. General treatment of klystron resonant cavities. IRE Trans. Microwave Theory Tech. 1958;10:344–358.
- Kagan H. N-way power divider. IRE Trans. Microwave Theory Tech. 1961;3:198–199.
- Dancila DS, Rydberg BL, Eriksson A, Goryashko VA, Haapala LF, Ruber RJMY, Wedberg R, Yogi RA, Ziemann VG. 5nd International Particle Accelerator Conference (IPAC 2014) Dresden, Germany; Paper WEPME013; 2014 June 15–20.