Laser Propulsion in Space: Fundamentals, Technology, and Future Missions

Claude Phipps

jun 2024 · Elsevier

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Space launches have evoked the same vivid image for decades: bright orange flames exploding beneath a rocket as it lifts off and thunders into the sky. An alternative acceleration system could reshape that vision forever, with rockets leaving their energy source on the ground... or in space.Laser Propulsion in Space: Fundamentals, Technology, and Future Missions takes readers on a comprehensive journey from the theoretical overview of propulsion fundamentals, to reviews of current projects involving high-power CW fiber lasers and energetic mm-wave sources with their ongoing and potential end-use applications in beamed energy propulsion (BEP). Written by experts in the field, this mathematically sound reference text also highlights graphical solutions of equations' results, as well as case studies with worked-out examples, making this book an invaluable compendium for students, researchers, technology developers and futurists in understanding the promise and challenges of this emerging technology. - Covers beamed energy propulsion advances - Highlights state-of-the-art BEP applications of LEO debris removal, suborbital and orbital launch, solar system exploration, and interstellar lightsail probes, as well as advances in related photon source technologies and infrastructures - Includes opinion sections explaining why we as a technical society should care about each chapter's topic and the considerably good outcomes that can be achieved with laser engines - Is accompanied by a website with video clips and other ancillary materials to enhance insight

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Claude Phipps earned B.S./M.S. degrees at MIT and a PhD at Stanford in 1972 for the first laser-plasma interaction experiment. At Los Alamos from 1992 to 1995, he facilitated peaceful applications of lab technology as Associate Director of the Alliance for Photonic Technology, was project leader for the Laser Effects Program, and developed a general theory for predicting pulsed laser pressure on surfaces in vacuum. In 1995, he founded Photonic Associates to develop laser space propulsion. He invented the ORION and L’ADROIT concepts for laser space debris re-entry and collaborated with CNES to develop the Just-in-time Collision Avoidance principle. He has authored 145 scientific journal publications on laser applications and material interactions and 168 conference presentations. He chaired the ‘High Power Laser Ablation’ conferences in Santa Fe from 1998 to 2024. He is the author or contributor to three books on laser interaction and a popular science book titled No Wonder You Wonder (Springer, 2016).

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