Abstract
An RF drive-beam power generation system is being studied for the Compact Linear Collider (CLIC) scheme at CERN, using high-power multibeam klystrons (MBKs) operating at 937 MHz. Each RF drive module will provide up to 100 MW during a 100 /spl mu/s pulse to each accelerating structure in a fully-loaded L-band linac. An RF module consists of two klystron-modulators, each driving a 50 MW MBK, whose RF outputs are connected via 3 dB power combiners to a single 3.4 m long, travelling wave accelerating structure. The CLIC scheme will contain in total about 90 RF modules in each of the drive-beam linacs.
Highlights
Compact Linear Collider (CLIC) uses the Two-Beam Accelerator (TBA) concept first proposed by A
An RF drive-beam power generation system is being studied for the Compact Linear Collider (CLIC) scheme at CERN, using high-power multibeam klystrons (MBKs) operating at 937 MHz
An RF module consists of two klystron-modulators, each driving a 50 MW multi-beam klystrons (MBKs), whose RF outputs are connected via 3 dB power combiners to a single 3.4 m long, travelling wave accelerating structure
Summary
CLIC uses the Two-Beam Accelerator (TBA) concept first proposed by A. An RF drive-beam power generation system is being studied for the Compact Linear Collider (CLIC) scheme at CERN, using high-power multibeam klystrons (MBKs) operating at 937 MHz. Each RF drive module will provide up to 100 MW An RF module consists of two klystron-modulators, each driving a 50 MW MBK, whose RF outputs are connected via 3 dB power combiners to a single 3.4 m long, travelling wave accelerating structure.
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