An “interstellar precursor mission” lays the groundwork for eventual interstellar exploration by studying the interstellar medium and by stretching technologies that have potential application for eventual interstellar exploration. The numerous scientific goals for such a mission include generating a 3-D stellar map of our galaxy, studying Kuiper-belt and Oort cloud objects, and observing distant objects using the sun’s gravitational lens as the primary of an enormous telescope. System equations are developed for a space tug which propels a 2500-kg scientific payload to 550 astronomical units in about 20 years. The tug to transport this payload uses electric propulsion with an lsp of 15,000 seconds and a fission reactor with a closed Brayton cycle to generate the electricity. The optimal configuration may be to thrust for only about 6 years and then coast for the remaining 14 years. This spacecraft does not require any physics breakthroughs or major advances in technology. The fission power system can be engineered and built by drawing upon known technologies developed for related systems over the past 40 years. The tug system would eventually reach 1000 a.u in 33 years, and would have adequate power to relay large amounts of data throughout its journey.
A fission-powered interstellar precursor mission
Space technology and applications international forum -1999 ; 1999 ; Albuquerque, New Mexico (USA)
AIP Conference Proceedings ; 458 , 1 ; 1247-1254
1999-01-22
8 pages
Conference paper
Electronic Resource
English
A Fission-Powered Interstellar Precursor Mission
British Library Conference Proceedings | 1999
|An interstellar precursor mission
NTRS | 1980
|Fission-Based Electric Propulsion for Interstellar Precursor Missions
British Library Conference Proceedings | 2000
|Fission-based electric propulsion for interstellar precursor missions
American Institute of Physics | 2000
|Investigation of nuclear electric powered interstellar precursor missions
Online Contents | 2011
|