A 233 km Tunnel for Lepton and Hadron Colliders

Abstract

A decade ago, a cost analysis was conducted to bore a 233 km circumference Very Large Hadron Collider (VLHC) tunnel passing through Fermilab. Here we outline implementations of e+e-, p p, and μ+ μ- collider rings in this tunnel using recent technological innovations. The 240 and 500 GeV e+e- colliders employ Crab Waist Crossings, ultra low emittance damped bunches, short vertical IP focal lengths, superconducting RF, and low coercivity, grain oriented silicon steel/concrete dipoles. Some details are also provided for a high luminosity 240 GeV e+ e- collider and 1.75 TeV muon accelerator in a Fermilab site filler tunnel. The 40 TeV p p collider uses the high intensity Fermilab p source, exploits high cross sections for p p production of high mass states, and uses 2 Tesla ultra low carbon steel/YBCO superconducting magnets run with liquid neon. The 35 TeV muon ring ramps the 2 Tesla superconducting magnets at 9 Hz every 0.4 seconds, uses 250 GV of superconducting RF to accelerate muons from 1.75 to 17.5 TeV in 63 orbits with 71% survival, and mitigates neutrino radiation with phase shifting, roller coaster motion in a FODO lattice.