equivalent energy load / collision site / energy costs / lower energy costs / collection devices / propulsion technologies / high-energy antiprotons / unit energy / conventional systems / portable device / kinetic energy / energy cost / refractory metal core / driver systems / energy range / cancer therapy / propulsive energy / gas core concepts / proton acceleration energy / antimatter energy costs / omniplanetary applications / energy requirement / propulsion systems / energy equivalent / near-term propulsion applications / collection equipment / energy density / antimatter systems / low kinetic energy / energy applications / portable antiproton devices / optimized energy / annihilation products / energy-intensive process / potential near-term technologies / applied annihilation energy / high temperature gas / rest mass energy / space applications / acceleration energy / annihilation energy / proton collision site / charged annihilation products / antimatter-catalyzed fusion propulsion devices / gas core / input energy / energy content / fusion energy gain / energy utilization efficiency / energy / /
OperatingSystem
Fermi / /
Organization
Fermi National Accelerator Laboratory / Pennsylvania State University University / African Union / National Aeronautics and Space Administration / /