Six-Dimensional Cooling Simulations for the Muon Collider

TL;DR

This paper presents detailed simulations of two six-dimensional muon cooling channels, including innovative designs like the Guggenheim helix and open cavity lattice, comparing their performance to traditional RFOFO rings.

Contribution

It introduces new six-dimensional cooling channel designs and provides comprehensive simulation results comparing their effectiveness to existing RFOFO configurations.

Findings

Guggenheim helix resolves injection and overheating issues.

Open cavity lattice addresses RF breakdown in magnetic fields.

Simulations show performance improvements over original RFOFO ring.

Abstract

The two cooling channels based on the RFOFO ring concept are considered and simulated. One of them is the RFOFO helix, also known as the Guggenheim. The helical shape of the channel resolves the injection and extraction issues as well as the absorber overheating issue. The issue of the RF breakdown in the magnetic field is addressed in the so-called open cavity cooling channel lattice with magnetic coils in the irises of the RF cavities. The details of the tracking studies of both channels are presented and compared to the performance of the original RFOFO cooling ring design.