Trajectory Design and Optimization of the Moon-Enabled Sun Occultation Mission

Nicola Baresi; Danny Owen; Alesia Herasimenka; Lucie Green; Huw Morgan; Craig Ian Underwood; Christopher Paul Bridges; Andrea Lucca Fabris; Keith Andrew Ryden; Steve Eckersley

Trajectory Design and Optimization of the Moon-Enabled Sun Occultation Mission

Conference proceeding

Open access

Trajectory Design and Optimization of the Moon-Enabled Sun Occultation Mission

Nicola Baresi, Danny Owen, Alesia Herasimenka, Lucie Green, Huw Morgan, Craig Ian Underwood, Christopher Paul Bridges, Andrea Lucca Fabris, Keith Andrew Ryden and Steve Eckersley

The Journal of the Astronautical Sciences

Spaceflight Mechanics Meeting (Kaua'i, HI, 19/01/2025–23/01/2025)

2025

Abstract

Space Mission Design

Spacecraft Trajectory Optimization

MESOM

Astrodynamics

The study of the solar corona has important ramifications on the understanding and forecasting of space weather phenomena. Yet, regardless of scientific breakthroughs brought by space-based coronagraphs, access to the lowest layers of the Sun’s atmosphere remains possible mostly during rare and sporadic total solar eclipses on Earth. This paper introduces the preliminary trajectory design analyses of a Moon-Enabled Sun Occultation Mission (MESOM), which capitalizes on synodic resonant orbits in the Sun-Earth-Moon four body problem to enable global and high-quality measurements of the solar corona below 1.02 sun radii once every synodic month (e.g., 29.6 days)

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Title: Trajectory Design and Optimization of the Moon-Enabled Sun Occultation Mission
Creators: Nicola Baresi - University of Surrey, School of Maths and Physics
Danny Owen - University of Surrey, School of Maths and Physics
Alesia Herasimenka - University of Surrey, School of Maths and Physics
Lucie Green
Huw Morgan
Craig Ian Underwood - University of Surrey, School of Computer Science & Electronic Engineering
Christopher Paul Bridges - University of Surrey, School of Maths and Physics
Andrea Lucca Fabris - University of Surrey, School of Maths and Physics
Keith Andrew Ryden - University of Surrey, School of Maths and Physics
Steve Eckersley - Surrey Satellite Technology (United Kingdom)
Publication Details: The Journal of the Astronautical Sciences
Conference: Spaceflight Mechanics Meeting (Kaua'i, HI, 19/01/2025–23/01/2025)
Publication Date: 2025
Date accepted for publication: 01/11/2024
Grants: MESOM: Moon Enabled Sun Occultation Mission, RB4726, United Kingdom Space Agency (United Kingdom, Swindon) - UKSA
Identifiers: 99968964602346
Academic Unit: School of Maths and Physics
Language: English
Resource Type: Conference proceeding

Trajectory Design and Optimization of the Moon-Enabled Sun Occultation Mission

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