Contents

• List of Authors
• Preface
• Contents
• List of Figures
• List of Tables
• Part 1. Project overview
  • 1. Overview
    • 1.1 Statement of the Mission
    • 1.2 Physics Overview
    • 1.3 Detector Model
    • 1.4 Accelerator Overview
    • Bibliography
• Part 2. Physics
  • 2. Higgs
    • 2.1 Introduction
    • 2.2 Theoretical Overview
    • 2.3 Higgs Production, Decay, Background Processes
    • 2.4 Experimental Considerations
    • 2.5 Experimental Overview; Higgs Detection and Measurement
    • 2.6 Physics Outputs and Impacts in Models
    • 2.7 Further Experimental Considerations
    • 2.8 Future Studies to be Made
    • 2.9 Summary
    • Bibliography
  • 3. Supersymmetry
    • 3.1 Introduction
    • 3.2 SUSY Breaking Scenarios
    • 3.3 Simulated Experiments
    • 3.4 Other Scenarios
    • 3.5 Requirements to Machine and Detector
    • 3.6 Tests of SUSY Breaking Mechanisms
    • Bibliography
  • 4. Top Quark Physics
    • 4.1 Introduction
    • 4.2 Top Quark Threshold Region
    • 4.3 Top Quark Mass Measurement from $t\bar{t}$ Dilepton events
    • 4.4 Measurement of Top-Yukawa Coupling
    • 4.5 Probe for anomalous $t\bar{t}H$ couplings at JLC
    • 4.6 Probe for Anomalous $t\gamma$, tZ, tW Couplings
    • 4.7 CP violation in the open $t \overline {t}$ region
    • 4.8 Probe for R-violating top quark decays
    • 4.9 Summary
    • Bibliography
  • 5. QCD and Two Photon Physics
    • 5.1 Introduction
    • 5.2 Perturbative QCD
    • 5.3 Transition to Non-perturbative Region
    • 5.4 Non-perturbative Topics
    • 5.5 Summary
    • Bibliography
  • 6. Precision Electro-Weak Physics
    • 6.1 Introduction
    • 6.2 W Boson Mass Determination
    • 6.3 Triple and Quartic Gauge Boson Couplings
    • 6.4 Sensitivity to the Anomalous Gauge Boson Couplings
    • 6.5 Heavy Higgs and WW Scattering
    • Bibliography
• Part 3. Detectors
  • 7. Interaction Region
    • 7.1 Introduction
    • 7.2 Backgrounds
    • 7.3 Layout
    • 7.4 Estimation of background hits
    • 7.5 Background hits in different detector models
    • 7.6 Pair monitor
    • 7.7 Luminosity Monitor and Active mask
    • 7.8 Support system
    • 7.9 Dump line
    • Bibliography
  • 8. Tracking
    • 8.1 Vertex Detector
    • 8.2 Intermediate Tracker
    • 8.3 Central Tracker
    • 8.4 Performances of Tracking System
    • Bibliography
  • 9. Calorimetry
    • 9.1 Design Criteria
    • 9.2 Baseline Design
    • 9.3 Hardware Study
    • 9.4 Simulation Study
    • 9.5 Future Prospect
    • Bibliography
  • 10. Muon detector
    • 10.1 Introduction
    • 10.2 Material Effect
    • 10.3 Detector Options
    • 10.4 Summary
    • Bibliography
  • 11. Detector Magnet
    • 11.1 Superconducting coil
    • 11.2 Iron structure
  • 12. Monte Carlo Simulation Tools
    • 12.1 Overview
    • 12.2 JSF: JLC Study Framework
    • 12.3 Event Generators
    • 12.4 Detector Simulators
    • 12.5 Future Direction
    • Bibliography
• Part 4. Options
  • 13. $\gamma \gamma$, $e^-\gamma$, e^-e^-
    • 13.1 Introduction
    • 13.2 $\gamma \gamma$  and $e \gamma$  Collider
    • 13.3 Physics
    • 13.4 Technical Issues
    • 13.5 Summary and Future Prospect
    • Bibliography

• Appendix
  • A1. ACFA Statement