Add to ORKGA 30-GHz muffin-tin, traveling-wave accelerating structure consisting of 37 cells was tested at high power using the CTF2 at CERN. The structure was fabricated with conventional milling and brazing, including tuning holes at cavity roofs. No special surface preparation or treatment was done to the structure. A maximum peak power in excess of 100 MW at a pulse width of 4 ns was transported through the structure before electron bursts were initiated. A maximum accelerating gradient of 60 MV/m was achieved with a peak RF power of 40 MW at a pulse width of 8 ns
The second phase of the Compact LInear Collider (CLIC) Test Facility (CTF II) at CERN has demon-stra...
The CLIC study is actively investigating a number of different materials in an effort to find ways t...
A 30 GHz pulse stretcher was designed, manufactured, tuned, and installed within a period of about t...
The paper presents1 the design of a planar R-Band accelerating structure and results of a first high...
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...
A prototype of a 30 GHz planar accelerating structure has been manufactured by Heino Henke, Rolf Mer...
The CLIC study group at CERN has built two X-band HDS (Hybrid Damped Structure) accelerating structu...
In order to extend the available range of data on achievable accelerating gradients and pulse length...
The CLIC study is investigating a number of different materials at different frequencies in order to...
A prototype 11.994 GHz, traveling-wave accelerating structure for the Compact Linear Collider has be...
The CLIC study is high power testing accelerating structures in a number of different materials and ...
A prototype 11.994 GHz, traveling-wave accelerating structure for the Compact Linear Collider has be...
A prototype 11.994 GHz, traveling-wave accelerating structure for the Compact Linear Collider has be...
In order to extend the available range of data on achievable accelerating gradients and pulse length...
The second phase of the Compact LInear Collider (CLIC) Test Facility (CTF II) at CERN has demon-stra...
The CLIC study is actively investigating a number of different materials in an effort to find ways t...
A 30 GHz pulse stretcher was designed, manufactured, tuned, and installed within a period of about t...
The paper presents1 the design of a planar R-Band accelerating structure and results of a first high...
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...
A prototype of a 30 GHz planar accelerating structure has been manufactured by Heino Henke, Rolf Mer...
The CLIC study group at CERN has built two X-band HDS (Hybrid Damped Structure) accelerating structu...
In order to extend the available range of data on achievable accelerating gradients and pulse length...
The CLIC study is investigating a number of different materials at different frequencies in order to...
A prototype 11.994 GHz, traveling-wave accelerating structure for the Compact Linear Collider has be...
The CLIC study is high power testing accelerating structures in a number of different materials and ...
A prototype 11.994 GHz, traveling-wave accelerating structure for the Compact Linear Collider has be...
A prototype 11.994 GHz, traveling-wave accelerating structure for the Compact Linear Collider has be...
In order to extend the available range of data on achievable accelerating gradients and pulse length...
The second phase of the Compact LInear Collider (CLIC) Test Facility (CTF II) at CERN has demon-stra...
The CLIC study is actively investigating a number of different materials in an effort to find ways t...
A 30 GHz pulse stretcher was designed, manufactured, tuned, and installed within a period of about t...