Open AccessOptimum trajectories for an Earth–asteroid–Earth mission with a high thrust flight
Author(s) -
В. В. Ивашкин,
Anqi Lang
Publication year - 2019
Publication title -
doklady akademii nauk. rossijskaâ akademiâ nauk
Language(s) - English
Resource type - Journals
ISSN - 0869-5652
DOI - 10.31857/s0869-56524842161-166
Subject(s) - interplanetary spaceflight , asteroid , spacecraft , astrobiology , aerospace engineering , near earth object , earth (classical element) , thrust , geology , earth radius , stage (stratigraphy) , physics , astronomy , engineering , solar wind , magnetic field , magnetosphere , paleontology , quantum mechanics
The trajectories of a mission to an asteroid with the presence of a spacecraft (SC) near the asteroid for some time and including a return to the Earth have been studied. A two-stage method of constructing optimum (with respect to the maximum of the useful SC mass) interplanetary trajectories of an Earth–asteroid–Earth mission with high thrust engines has been developed: in the central Newtonian field of the Sun’s attraction at the first stage and with allowance for disturbances at the second stage. An algorithm of constructing conjugate functions for the case of maximizing the useful mass has been designed. The optimum trajectories for the Earth-Apophis-Earth mission have been constructed and analyzed. The possibility in principle of organizing the Earth-Apophis-Earth space mission based on the "Soyuz" and "Zenit" launch vehicles and "Fregat" upper stage for a flight has been demonstrated.