dorsal/arxiv
View SchemaLattice with Smaller Momentum Compaction Factor for PEP-II High Energy Ring
| Authors | Y. Cai, M. H. R. Donald, Y. Nosochkov |
|---|---|
| Categories | |
| ArXiv ID | physics/0305088 |
| URL | https://arxiv.org/abs/physics/0305088 |
| Journal | Conf.Proc.C030512:2288,2003 |
Abstract
At present, the PEP-II bunch length and vertical beta function at the Interaction Point (IP) are about of the same size. To increase luminosity, it is planned to gradually reduce the IP beta function. For the maximum effect, bunch length has to be also reduced to minimize luminosity loss caused by the hourglass effect at IP. One of the methods to achieve a smaller bunch length is to reduce momentum compaction factor. This paper discusses a lattice option for the High Energy Ring, where the nominal 60 degree cells in four arcs are replaced by 90 degree cells to reduce momentum compaction factor by 30% and bunch length by 16%. The increased focusing in 90 degree cells results in 40% stronger arc quadrupoles and 150% stronger arc sextupoles due to reduced dispersion and larger chromaticity. Tracking simulations predict that dynamic aperture for this lattice will be more than 10 times the rms size of a fully coupled beam for a horizontal emittance of 30 nm and IP beta function of 1cm. The lattice modification and results of simulations are presented.
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"abstract": "At present, the PEP-II bunch length and vertical beta function at the\nInteraction Point (IP) are about of the same size. To increase luminosity, it\nis planned to gradually reduce the IP beta function. For the maximum effect,\nbunch length has to be also reduced to minimize luminosity loss caused by the\nhourglass effect at IP. One of the methods to achieve a smaller bunch length is\nto reduce momentum compaction factor. This paper discusses a lattice option for\nthe High Energy Ring, where the nominal 60 degree cells in four arcs are\nreplaced by 90 degree cells to reduce momentum compaction factor by 30% and\nbunch length by 16%. The increased focusing in 90 degree cells results in 40%\nstronger arc quadrupoles and 150% stronger arc sextupoles due to reduced\ndispersion and larger chromaticity. Tracking simulations predict that dynamic\naperture for this lattice will be more than 10 times the rms size of a fully\ncoupled beam for a horizontal emittance of 30 nm and IP beta function of 1cm.\nThe lattice modification and results of simulations are presented.",
"arxiv_id": "physics/0305088",
"authors": [
"Y. Cai",
"M. H. R. Donald",
"Y. Nosochkov"
],
"categories": [
"physics.acc-ph"
],
"journal_ref": "Conf.Proc.C030512:2288,2003",
"title": "Lattice with Smaller Momentum Compaction Factor for PEP-II High Energy Ring",
"url": "https://arxiv.org/abs/physics/0305088"
},
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