The structure of the four Siberian Snakes and eight Spin Rotators being designed for RHIC is discussed. These devices consist each of four helical dipoles. Results of orbit and spin tracking through the magnets are presented. 14 refs., 8 figs., 4 tabs
The so-called spin response formalism, which is linear response theory applied to spin dynamics in s...
The operation of RHIC collider rings in polarized proton runs includes helical snakes, which allow f...
The simulation of spin precession and orbital motion in Siberian Snakes in RHIC based on the calcula...
For the program of polarized protons in RHIC, two Siberian snakes and four spin rotators per ring wi...
Various possible spin rotator and siberian snake schemes are considered for use at the RHIC collider...
In order to collide polarized protons, the RHIC project will have two snakes in each ring and four r...
1 A snake for the AGS Acceleration of polarized protons in the AGS with minimum loss of polarization...
Abstract: Spin tracking with “real ” Siberian Snakes in RHIC was done. The tracking code SPINK was u...
A proper understanding of the response of the spin orien-tation due to the currents in the four heli...
With a partial Siberian snake in the AGS and transport lines with interspersed horizontal and vertic...
The stable spin direction in the RHIC rings is vertical. With one or two partial helical Siberian sn...
In the acceleration of polarized protons in RHIC many spin depolarizing resonances are encountered. ...
A proper understanding of the response of the spin orientation due to the currents in the four helic...
Accelerating polarized proton beams and storing them for many turns can lead to a loss of polarizati...
Siberian snakes avoid crossing depolarizing resonances in circular accelerators by forcing the spin ...
The so-called spin response formalism, which is linear response theory applied to spin dynamics in s...
The operation of RHIC collider rings in polarized proton runs includes helical snakes, which allow f...
The simulation of spin precession and orbital motion in Siberian Snakes in RHIC based on the calcula...
For the program of polarized protons in RHIC, two Siberian snakes and four spin rotators per ring wi...
Various possible spin rotator and siberian snake schemes are considered for use at the RHIC collider...
In order to collide polarized protons, the RHIC project will have two snakes in each ring and four r...
1 A snake for the AGS Acceleration of polarized protons in the AGS with minimum loss of polarization...
Abstract: Spin tracking with “real ” Siberian Snakes in RHIC was done. The tracking code SPINK was u...
A proper understanding of the response of the spin orien-tation due to the currents in the four heli...
With a partial Siberian snake in the AGS and transport lines with interspersed horizontal and vertic...
The stable spin direction in the RHIC rings is vertical. With one or two partial helical Siberian sn...
In the acceleration of polarized protons in RHIC many spin depolarizing resonances are encountered. ...
A proper understanding of the response of the spin orientation due to the currents in the four helic...
Accelerating polarized proton beams and storing them for many turns can lead to a loss of polarizati...
Siberian snakes avoid crossing depolarizing resonances in circular accelerators by forcing the spin ...
The so-called spin response formalism, which is linear response theory applied to spin dynamics in s...
The operation of RHIC collider rings in polarized proton runs includes helical snakes, which allow f...
The simulation of spin precession and orbital motion in Siberian Snakes in RHIC based on the calcula...
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