TL;DR
This paper reviews the physics potential of TESLA, a proposed 500-800 GeV electron-positron collider, focusing on precision Higgs and top measurements and implications for supersymmetry.
Contribution
It provides an overview of TESLA's machine parameters, detector goals, and its capability for high-precision measurements in Higgs, top, and supersymmetric physics.
Findings
TESLA can achieve high-precision measurements of Higgs and top properties.
The collider's parameters are optimized for exploring physics at high energy scales.
Potential to test supersymmetric models through extrapolation to high energies.
Abstract
The physics at a 500-800 GeV electron positron linear collider, TESLA, is reviewed. The machine parameters that impact directly on the physics are discussed and a few key performance goals for a detector at TESLA are given. Emphasis is placed on precision measurements in the Higgs and top sectors and on extrapolation to high energy scales in the supersymmetric scenario.
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