Precision Higgs Measurements at the 250 GeV ILC
Jan Strube
TL;DR
The paper discusses the potential of the 250 GeV stage of the International Linear Collider for high-precision Higgs boson measurements, offering unique insights beyond the LHC and testing new physics scenarios.
Contribution
It demonstrates that the 250 GeV ILC stage can achieve precise, model-independent Higgs measurements and distinguish various new physics models.
Findings
Provides new measurements not available at LHC
Enables model-independent parameter determinations
Tests and discriminates among new physics scenarios
Abstract
The plan for the International Linear Collider is now being prepared as a staged design, with the first stage at 250 GeV and later stages achieving the full project specifications with 4 ab-1 at 500 GeV. This talk will present the capabilities for precision Higgs boson measurements at 250 GeV and their relation to the full ILC program. It will show that the 250 GeV stage of ILC will already provide many compelling results in Higgs physics, with new measurements not available at LHC, model-independent determinations of key parameters, and tests for and possible discrimination of a variety of scenarios for new physics.
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Taxonomy
TopicsParticle physics theoretical and experimental studies · Particle Accelerators and Free-Electron Lasers · Particle Detector Development and Performance