Abstract
Spinor transfer matrices representing successive transformations of the spinor wave function are used to track the spin of particles through isolated resonances in circular accelerators. Analytical calculations and numerical results showing that synchrotron oscillation effects can be included in this approach are presented. Finally, spin motion in presence of total or partial Siberian snakes is investigated.
Citation Formats
Nghiem, P, and Tkatchenko, A.
Spin tracking in circular accelerators using spinor formalism.
France: N. p.,
1992.
Web.
Nghiem, P, & Tkatchenko, A.
Spin tracking in circular accelerators using spinor formalism.
France.
Nghiem, P, and Tkatchenko, A.
1992.
"Spin tracking in circular accelerators using spinor formalism."
France.
@misc{etde_10118930,
title = {Spin tracking in circular accelerators using spinor formalism}
author = {Nghiem, P, and Tkatchenko, A}
abstractNote = {Spinor transfer matrices representing successive transformations of the spinor wave function are used to track the spin of particles through isolated resonances in circular accelerators. Analytical calculations and numerical results showing that synchrotron oscillation effects can be included in this approach are presented. Finally, spin motion in presence of total or partial Siberian snakes is investigated.}
place = {France}
year = {1992}
month = {Dec}
}
title = {Spin tracking in circular accelerators using spinor formalism}
author = {Nghiem, P, and Tkatchenko, A}
abstractNote = {Spinor transfer matrices representing successive transformations of the spinor wave function are used to track the spin of particles through isolated resonances in circular accelerators. Analytical calculations and numerical results showing that synchrotron oscillation effects can be included in this approach are presented. Finally, spin motion in presence of total or partial Siberian snakes is investigated.}
place = {France}
year = {1992}
month = {Dec}
}