A new lattice design for a 1.5 TeV CoM Muon Collider consistent with the tevatron tunnel

Author

Snopok, Pavel ; Berz, Martin ; Johnstone, Carol

Author_Institution

SPbSU, St. Petersburg

fYear

2007

fDate

25-29 June 2007

Firstpage

3483

Lastpage

3485

Abstract

A recent effort is underway to design an efficient match of a Muon Collider to the Fermilab site, potentially using the Tevatron tunnel after decommissioning. This work represents a new design for such a collider with emphasis on shortened IR and systematic high-order correction and dynamics studies. With a 1 cm beta*, simultaneous control of geometric and chromatic aberrations is critical and can only be achieved through the deliberate addition of nonlinear fields in the Interaction Region itself. This work studies both the correction schemes and the unavoidable impact of high-order correctors - sextupoles, octupoles and even duodecapoles - located in the Interaction Region close to the low-beta quadrupoles or focusing elements. This study proposes and systematically addresses the aberrations for different systems of nonlinear correctors and optimizes performance of an advanced IR.

Keywords

muon colliders; particle beam bunching; particle beam focusing; proton accelerators; storage rings; synchrotrons; Fermilab; Muon Collider; Tevatron tunnel; bunch length; chromatic aberration; duodecapoles; focusing elements; geometric aberration; low-beta quadrupoles; nonlinear correctors; nonlinear fields; octupoles; sextupoles; storage rings; systematic high-order correction; Acceleration; Carbon capture and storage; Design optimization; Electron accelerators; Lattices; Mesons; Muon colliders; Particle beams; Proton accelerators; Synchrotron radiation;

fLanguage

English

Publisher

ieee

Conference_Titel

Particle Accelerator Conference, 2007. PAC. IEEE

Conference_Location

Albuquerque, NM

Print_ISBN

978-1-4244-0916-7

Type

conf

DOI

10.1109/PAC.2007.4440466

Filename

4440466