Part I Colliding Beams Method.- Beam Dynamics Issues in Hadron Supercolliders.- Overview of the Electron Lens Method and Its Applications in Supercolliders.- Part II Technology of Electron Lenses.- Major Requirements.- Electron and Proton Beam Stability.- Electron Source.- Magnetic Systems.

- Beam Diagnostics and Other Systems.- Tevatron and RHIC Electron Lenses.- Part III Electron Lenses for Beam-Beam Compensation.- Head-on beam-beam compensation.- Long-range beam-beam compensation.- Part IV Electron Lenses for Beam Halo Collimation.- Transverse Collimation: Hollow Electron Beam.- Longitudinal Beam Collimation: Abort Gap Cleaning.

- Part V Electron Lenses for Space-Charge Compensation.- Theory and Modeling of the SCC with Electron Lenses.- Experimental Studies of the SCC.- Part VI Other Applications of Electron Lenses.- Electron Lenses for Slow Extraction from Proton Synchrotrons.- Beam-beam Compensation in e+e- Colliders with Electron Lenses.- Electron Beams to Control Transverse Instabilities.- Electron Lens for Nonlinear Integrable Optics.

- Beam-beam Kicker.