Supersymmetric Dark Matter and the Energy of a Linear Electron-Positron Collider
Abstract
We suggest that supersymmetric dark matter be used to set the energy scale of a linear e+ e- collider. Assuming that the lightest supersymmetric particle (LSP) is a stable neutralino , as in many incarnations of the MSSM with conserved R parity, previous calculations that include coannihilation effects have delineated the region of the (m1/2, m0) plane where the LSP cosmological relic density lies in the preferred range 0.1 h2 0.3. We evaluate here the total cross section for e+ e- visible pairs of supersymmetric particles, for different values of m1/2 and m0, and investigate how much of the dark matter region can be explored by e+ e- colliders with different centre-of-mass energies ECM. We find that a collider with ECM = 500 GeV or 1 TeV can only explore part of the cosmological region, and that a collider with ECM = 1.5 TeV with sufficient luminosity can explore all of the supersymmetric dark matter region.
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