Add to ORKGTo reach the design luminosity of CLIC, the movements of the quadrupoles should be limited to the nanometre level in order to limit the beam size and emittance growth. Below 1 Hz, the movements of the main beam quadrupoles will be corrected by a beambased feedback. But above 1 Hz, the quadrupoles should be mechanically stabilized. A collaboration effort is ongoing between several institutes to study the feasibility of the “nanostabilization” of the CLIC quadrupoles. The study described in this paper covers the characterization of independent measuring techniques including optical methods to detect nanometre sized displacements and analyze the vibrations. Actuators and feedback algorithms for sub-nanometre movements of magnets with a mass of...
peer reviewedIn order to achieve the required levels of luminosity in the CLIC linear collider, mech...
The nanometer beam size at the CLIC interaction point imposes magnet vibration tolerances that range...
In the Compact LInear Collider (CLIC) currently under study, electrons and positrons will be acceler...
Original publication available at http://www.jacow.org/International audienceTo reach the design lum...
Mechanical stability to the nanometre and below is required for the Compact Linear Collider (CLIC) q...
The demanding nanometre transverse beam sizes and emittances in future linear accelerators result in...
To reach the required luminosity at the CLIC interaction point, about 2000 quadrupoles along each li...
The nanometer beam size at the CLIC interaction point imposes magnet vibration tolerances that range...
The Compact LInear Collider (CLIC) study at the European Organization for Nuclear Research (CERN) is...
CLIC is one of the current projects of high energy linear colliders. Vertical beam sizes of 1nm at t...
The demanding nanometre transverse beam sizes and emittances in future linear accelerators result in...
The CLIC main beam quadrupoles need to be stabilized to 1.5 nm integrated R.M.S. displacement at 1 H...
The conceptual design of the active stabilization and nano-positioning of the CLIC main beam quadrup...
To reach a sufficient luminosity, the transverse beam sizes and emittances in future linear particle...
This thesis describes the research done to provide stabilisation and precision positioning for the m...
peer reviewedIn order to achieve the required levels of luminosity in the CLIC linear collider, mech...
The nanometer beam size at the CLIC interaction point imposes magnet vibration tolerances that range...
In the Compact LInear Collider (CLIC) currently under study, electrons and positrons will be acceler...
Original publication available at http://www.jacow.org/International audienceTo reach the design lum...
Mechanical stability to the nanometre and below is required for the Compact Linear Collider (CLIC) q...
The demanding nanometre transverse beam sizes and emittances in future linear accelerators result in...
To reach the required luminosity at the CLIC interaction point, about 2000 quadrupoles along each li...
The nanometer beam size at the CLIC interaction point imposes magnet vibration tolerances that range...
The Compact LInear Collider (CLIC) study at the European Organization for Nuclear Research (CERN) is...
CLIC is one of the current projects of high energy linear colliders. Vertical beam sizes of 1nm at t...
The demanding nanometre transverse beam sizes and emittances in future linear accelerators result in...
The CLIC main beam quadrupoles need to be stabilized to 1.5 nm integrated R.M.S. displacement at 1 H...
The conceptual design of the active stabilization and nano-positioning of the CLIC main beam quadrup...
To reach a sufficient luminosity, the transverse beam sizes and emittances in future linear particle...
This thesis describes the research done to provide stabilisation and precision positioning for the m...
peer reviewedIn order to achieve the required levels of luminosity in the CLIC linear collider, mech...
The nanometer beam size at the CLIC interaction point imposes magnet vibration tolerances that range...
In the Compact LInear Collider (CLIC) currently under study, electrons and positrons will be acceler...