Add to ORKGThis paper presents a new method of fiducialisation applied to determine the magnetic axis of the Drive Beam quadrupole of the CLIC project with respect to external alignment fiducials, within a micrometric accuracy and precision. It introduces also a new micrometric adjustment system along 5 Degrees of Freedom, developed for the same Drive Beam quadrupole. The combination of both developments opens very interesting perspectives to get a more simple and accurate alignment of the quadrupoles
International audienceA complete solution has been proposed for the pre-alignment of the CLIC main l...
The CLIC drive beams will provide the rf power to ac-celerate the colliding beams: in order to reach...
Alignment of the accelerating structures is essential foremittance preservation in long linear accel...
CERN is currently studying the feasibility of building a high energy e⁺ e^{−} linear collider: the C...
The CLIC main beam quadrupoles need to be stabilized to 1.5 nm integrated R.M.S. displacement at 1 H...
This thesis describes the research done to provide stabilisation and precision positioning for the m...
The feasibility of the high energy e+ e- linear collider CLIC (Compact Linear Collider) is very depe...
International audienceThe objectives of the PACMAN* project are to improve the precision and accurac...
The CLIC main beam quadrupoles need to be prealigned within 17 um rms with respect to a straight ref...
We present a strategy for the fiducialisation of CLIC’s Main Beam Quadrupole (MBQ) magnets using Fre...
Several state-of-the-art metrology measurement methods have been investigated and combined for a fid...
The Compact LInear Collider (CLIC), currently under study at CERN, aims at the development of a Mult...
Mechanical stability to the nanometre and below is required for the Compact Linear Collider (CLIC) q...
STFC in collaboration with CERN has developed a new type of adjustable permanent magnet based quadru...
Original publication available at http://www.jacow.org/International audienceTo reach the design lum...
International audienceA complete solution has been proposed for the pre-alignment of the CLIC main l...
The CLIC drive beams will provide the rf power to ac-celerate the colliding beams: in order to reach...
Alignment of the accelerating structures is essential foremittance preservation in long linear accel...
CERN is currently studying the feasibility of building a high energy e⁺ e^{−} linear collider: the C...
The CLIC main beam quadrupoles need to be stabilized to 1.5 nm integrated R.M.S. displacement at 1 H...
This thesis describes the research done to provide stabilisation and precision positioning for the m...
The feasibility of the high energy e+ e- linear collider CLIC (Compact Linear Collider) is very depe...
International audienceThe objectives of the PACMAN* project are to improve the precision and accurac...
The CLIC main beam quadrupoles need to be prealigned within 17 um rms with respect to a straight ref...
We present a strategy for the fiducialisation of CLIC’s Main Beam Quadrupole (MBQ) magnets using Fre...
Several state-of-the-art metrology measurement methods have been investigated and combined for a fid...
The Compact LInear Collider (CLIC), currently under study at CERN, aims at the development of a Mult...
Mechanical stability to the nanometre and below is required for the Compact Linear Collider (CLIC) q...
STFC in collaboration with CERN has developed a new type of adjustable permanent magnet based quadru...
Original publication available at http://www.jacow.org/International audienceTo reach the design lum...
International audienceA complete solution has been proposed for the pre-alignment of the CLIC main l...
The CLIC drive beams will provide the rf power to ac-celerate the colliding beams: in order to reach...
Alignment of the accelerating structures is essential foremittance preservation in long linear accel...