Preliminary Investigation of Cislunar Disposal Reachability via Electric Propulsion for Selected L₂ Lagrange Point Orbit Families

Authors

Ryan M. Sargent, Air For Institute of Technology
Robert A. Bettinger, Air Force Institute of TechnologyFollow
Carl R. Hartsfield, Air Force Institute of TechnologyFollow

Document Type

Article

Publication Date

11-21-2025

Abstract

This paper investigates the disposal of end-of-life spacecraft from selected orbit families in the Earth-Moon system, specifically the L₂ Lyapunov and Halo families. Rather than focusing on impulsive burns with chemical propulsion systems, this paper examines disposal using continuous thrust generated by Hall thrusters, a form of electric propulsion. Leveraging the Circular Restricted Three Body Problem (CR3BP) as the dynamical framework, various levels of ΔV are evaluated in single-maximum burn and multiple-burn concepts of operation to evaluate the potential for spacecraft minimizing their transit of cislunar space and reaching the Earth’s gravitational sphere of influence in order to enter heliocentric space. Analysis indicates that disposal into heliocentric space is possible from the L₂ Lyapunov and Halo families for ΔV burns in the range of 10–100 m/s depending on the initial starting location and burn direction. Due to its comparatively higher stability, disposal burns from the L₂ Halo family may need to be higher than 100 m/s in order to exit the Earth’s gravitational sphere of influence. These findings establish a preliminary baseline for cislunar disposal research for the L₂ Lagrange point, contributing to the emerging dialogue concerning sustainable space traffic management practices.

Comments

© 2025 The Authors.

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Plain-text title form: Preliminary investigation of cislunar disposal reachability via electric propulsion for selected $$L_2$$ lagrange point orbit families

DOI

10.1007/s11038-025-09573-z

Source Publication

Discover Space (ISSN 2948-295X)

Recommended Citation

Sargent, R.M., Bettinger, R.A. & Hartsfield, C.R. Preliminary investigation of cislunar disposal reachability via electric propulsion for selected L₂ lagrange point orbit families. Discov Sp 129, 16 (2025). https://doi.org/10.1007/s11038-025-09573-z