Add to ORKGThe LHC aperture imposes a tight tolerance of 20 % on the maximum acceptable beta-beat in the machine. An ac-curate knowledge of the transfer functions for the individu-ally powered insertion quadrupoles and techniques to com-pensate beta-beat are key prerequisites for successful oper-ation with high intensity beams. We perform realistic sim-ulations to identify quadrupole errors in LHC and explore possible ways of correction to minimize beta-beat below the 20 % level
The precise measurement of the local value of the beta-function at the place of a beam size monitor ...
Beta functions at two interaction points (IP) in the high luminosity LHC upgrade lattice (HL-LHC) at...
The LHC operation relies on a good knowledge of the optics, usually corrected in absence of beam-bea...
The LHC aperture imposes a tight tolerance of 20% on the maximum acceptable beta-beat in the machine...
Minimization of the beta-beating at the two main interaction points of the LHC arising from the head...
To correct the beta* at the main collision points (IP1 and IP5) simultaneously for the two counterro...
To correct the beta * at the main collision points (IP1 and IP5) simultaneously for the two counterr...
The Large Hadron Collider (LHC) has achieved correction of beta beat down to better than 5%. The bea...
This note reports on the first LHC beta-beating and coupling measurements. Thanks to an excellent fu...
The control of the betatron coupling at injection and during the energy ramp is critical for the saf...
During the 2011 LHC run several measurements and cor- rection campaigns were conducted. As a result ...
The beta function has a fundamental impact on the LHC performance and on the functioning of its mach...
Optics correction in the LHC is challenged by the tight aperture constrains and the demand of a high...
The future regimes of operation of the LHC will require improved control of $β^*$ measurements to su...
It has been proposed to implement the so-called Achromatic Telescopic Squeezing (ATS) scheme [1] in ...
The precise measurement of the local value of the beta-function at the place of a beam size monitor ...
Beta functions at two interaction points (IP) in the high luminosity LHC upgrade lattice (HL-LHC) at...
The LHC operation relies on a good knowledge of the optics, usually corrected in absence of beam-bea...
The LHC aperture imposes a tight tolerance of 20% on the maximum acceptable beta-beat in the machine...
Minimization of the beta-beating at the two main interaction points of the LHC arising from the head...
To correct the beta* at the main collision points (IP1 and IP5) simultaneously for the two counterro...
To correct the beta * at the main collision points (IP1 and IP5) simultaneously for the two counterr...
The Large Hadron Collider (LHC) has achieved correction of beta beat down to better than 5%. The bea...
This note reports on the first LHC beta-beating and coupling measurements. Thanks to an excellent fu...
The control of the betatron coupling at injection and during the energy ramp is critical for the saf...
During the 2011 LHC run several measurements and cor- rection campaigns were conducted. As a result ...
The beta function has a fundamental impact on the LHC performance and on the functioning of its mach...
Optics correction in the LHC is challenged by the tight aperture constrains and the demand of a high...
The future regimes of operation of the LHC will require improved control of $β^*$ measurements to su...
It has been proposed to implement the so-called Achromatic Telescopic Squeezing (ATS) scheme [1] in ...
The precise measurement of the local value of the beta-function at the place of a beam size monitor ...
Beta functions at two interaction points (IP) in the high luminosity LHC upgrade lattice (HL-LHC) at...
The LHC operation relies on a good knowledge of the optics, usually corrected in absence of beam-bea...