Add to ORKGA fundamental element of the CLIC concept is two-beam acceleration, where rf power is extracted from a high-current and low-energy beam in order to accelerate the low-current main beam to high energy. The power extraction occurs in special Xband Power Extraction and Transfer Structures (PETS). The structures are large aperture, high-group velocity and overmoded periodic structures. Following the substantial changes of the CLIC baseline parameters in 2006, the PETS design has been thoroughly updated along with the fabrication methods and corresponding rf components. Two PETS prototypes have been fabricated and high power tested. Test results and future plans are presented
In CLIC, the rf power to accelerate the main beam is produced by decelerating a drive beam. The Test...
The two-beam acceleration scheme foreseen for CLIC and the associated radio-frequency (RF) component...
The CLIC RF frequency has been changed in 2008 from the initial 30 GHz to the European X-band 11.994...
The CLIC study group at CERN has built two X-band HDS (Hybrid Damped Structure) accelerating structu...
In recent years evidence has been found that the maximum sustainable gradient in an accelerating str...
During the year 2000, experiments using the CLIC Test Facility [1] (CTF II) focused on high-power te...
CTF2 was originally designed to demonstrate the feasibility of two-beam acceleration with high curre...
We present the design, construction and high-power test of an X-band radio-frequency accelerating st...
The CLIC Power Extraction and Transfer Structure (PETS) is a passive microwave device in which bunch...
In order to study the principle of the Compact Linear Collider (CLIC) based on the Two Beam Accelera...
In order to study the principle of the Compact Linear Collider (CLIC) based on the Two Beam Accelera...
The generation of short (250 ns) high peak power (135 MW) RF pulses by decelerating a high current ...
CLIC is an international study of a future multi-TeV electron-positron linear collider, where the en...
AbstractCLIC (compact linear collider) is a future e+e− collider based on normal-conducting technolo...
One crucial development for CLIC is an adjustable high-power RF device which controls the output pow...
In CLIC, the rf power to accelerate the main beam is produced by decelerating a drive beam. The Test...
The two-beam acceleration scheme foreseen for CLIC and the associated radio-frequency (RF) component...
The CLIC RF frequency has been changed in 2008 from the initial 30 GHz to the European X-band 11.994...
The CLIC study group at CERN has built two X-band HDS (Hybrid Damped Structure) accelerating structu...
In recent years evidence has been found that the maximum sustainable gradient in an accelerating str...
During the year 2000, experiments using the CLIC Test Facility [1] (CTF II) focused on high-power te...
CTF2 was originally designed to demonstrate the feasibility of two-beam acceleration with high curre...
We present the design, construction and high-power test of an X-band radio-frequency accelerating st...
The CLIC Power Extraction and Transfer Structure (PETS) is a passive microwave device in which bunch...
In order to study the principle of the Compact Linear Collider (CLIC) based on the Two Beam Accelera...
In order to study the principle of the Compact Linear Collider (CLIC) based on the Two Beam Accelera...
The generation of short (250 ns) high peak power (135 MW) RF pulses by decelerating a high current ...
CLIC is an international study of a future multi-TeV electron-positron linear collider, where the en...
AbstractCLIC (compact linear collider) is a future e+e− collider based on normal-conducting technolo...
One crucial development for CLIC is an adjustable high-power RF device which controls the output pow...
In CLIC, the rf power to accelerate the main beam is produced by decelerating a drive beam. The Test...
The two-beam acceleration scheme foreseen for CLIC and the associated radio-frequency (RF) component...
The CLIC RF frequency has been changed in 2008 from the initial 30 GHz to the European X-band 11.994...