Add to ORKGTo prepare for the PEP-II turn on, we have studied one commissioning strategy with simulated lattice errors. Features such as difference and absolute orbit analysis and correction are discussed
Developing a lattice that contains a very low beta value at the interaction point (IP) and has adequ...
A method for correcting lattice beta mismatches has been developed for the PEP-II collider using orb...
The very high beam currents in the PEP-II B-Factory have caused many expected and unexpected effects...
To prepare for the PEP-II turn on, we have studied one commissioning strategy with simulated lattice...
The PEP-II B-Factory is delivering peak luminosities of up to 9.2 {center_dot} 10{sup 33} 1/cm{sup 2...
The analysis of orbit response matrices has been used very successfully to measure and correct the g...
We present a summary of a fairly extensive study of beam-beam issues that arise in the design of PEP...
We describe algorithms for reconstructing tune, closed-orbit., beta-function and phase advance from ...
The analysis of orbit response matrices has been used very successfully to measure and correct the g...
We present a review of experimental results obtained dur-ing the commissioning of the SLAC PEP-II B ...
For a given rf frequency, the quasi-isochronous lattice allows, in principle, to double the number o...
In order to benefit from further reduction of the vertical IP beta function of the PEP-II high energ...
Already in the early commissioning stages of the BESSY II booster synchrotron and the 1.7 GeV electr...
We extend analysis of Ref. [1] of the closed orbit instability driven by the resistive wall impedanc...
The design of the lattice for the High Energy Ring (HER) of the SLAC B-Factory has several special f...
Developing a lattice that contains a very low beta value at the interaction point (IP) and has adequ...
A method for correcting lattice beta mismatches has been developed for the PEP-II collider using orb...
The very high beam currents in the PEP-II B-Factory have caused many expected and unexpected effects...
To prepare for the PEP-II turn on, we have studied one commissioning strategy with simulated lattice...
The PEP-II B-Factory is delivering peak luminosities of up to 9.2 {center_dot} 10{sup 33} 1/cm{sup 2...
The analysis of orbit response matrices has been used very successfully to measure and correct the g...
We present a summary of a fairly extensive study of beam-beam issues that arise in the design of PEP...
We describe algorithms for reconstructing tune, closed-orbit., beta-function and phase advance from ...
The analysis of orbit response matrices has been used very successfully to measure and correct the g...
We present a review of experimental results obtained dur-ing the commissioning of the SLAC PEP-II B ...
For a given rf frequency, the quasi-isochronous lattice allows, in principle, to double the number o...
In order to benefit from further reduction of the vertical IP beta function of the PEP-II high energ...
Already in the early commissioning stages of the BESSY II booster synchrotron and the 1.7 GeV electr...
We extend analysis of Ref. [1] of the closed orbit instability driven by the resistive wall impedanc...
The design of the lattice for the High Energy Ring (HER) of the SLAC B-Factory has several special f...
Developing a lattice that contains a very low beta value at the interaction point (IP) and has adequ...
A method for correcting lattice beta mismatches has been developed for the PEP-II collider using orb...
The very high beam currents in the PEP-II B-Factory have caused many expected and unexpected effects...