Halo Orbit Design using Richardson's Algorithm

Version 1.0.0 (6.2 KB) by David Eagle

MATLAB script for creating graphic displays of Halo orbits in the circular-restricted, three-body problem.

http://celestialandorbitalmechanicswebsite.yolasite.com/

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Updated 17 Feb 2022

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Orbit displays are centered at the selected libration poimt. The x-y plane is the plane of motion of the primary (larger) body about the secondary (smaller) body. the positive x-asis points away from the primary body. The z-axis is normal to the orbit plane and completes the right-handed, rotating (synodic) coordinate system.

Reference - Analytic Contruction of Periodic Orbits about the Collinear Points, Celestial Mechanics 22 (1980), 241-253.

Here is a typical user interaction with this MATLAB script.

< halo orbit design using Richardson's algorithm>

please select the libration point of interest

<1> halo orbit about L1

<2> halo orbit about L2

<3> halo orbit about L3

selection (1, 2, or 3)

? 1

please input the class type (1 = class I, 2 = class II)

? 1

please input the three-body system (1 = Earth-Moon, 2 = Sun-Earth

? 1

please input the z-amplitude in kilometers

? 12500

Cite As

David Eagle (2026). Halo Orbit Design using Richardson's Algorithm (https://www.mathworks.com/matlabcentral/fileexchange/106840-halo-orbit-design-using-richardson-s-algorithm), MATLAB Central File Exchange. Retrieved January 22, 2026.

MATLAB Release Compatibility

Created with R2019b

Compatible with any release

Platform Compatibility

Windows macOS Linux

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Version	Published	Release Notes
1.0.0	17 Feb 2022		Download

Halo Orbit Design using Richardson's Algorithm

Cite As

MATLAB Release Compatibility

Platform Compatibility

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