A preliminary assessment of an orbiter in the Haumean system: How quickly can a planetary orbiter reach such a distant target?
With the recent discoveries of planetary objects beyond Neptune and Pluto, the vast majority of all sizeable Solar System planetary objects lie now beyond Uranus, where insertion into orbit after a reasonably short travel is still not within the current capabilities of our spacecraft. Being able to...
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| Published in: | Acta astronautica Vol. 68; no. 5; pp. 622 - 628 |
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| Main Authors: | , , , |
| Format: | Journal Article |
| Language: | English |
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Elsevier Ltd
01-03-2011
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| Abstract | With the recent discoveries of planetary objects beyond Neptune and Pluto, the vast majority of all sizeable Solar System planetary objects lie now beyond Uranus, where insertion into orbit after a reasonably short travel is still not within the current capabilities of our spacecraft. Being able to go and stop at a transneptunian dwarf planet would represent a step stone for ambitious long-term goals. The pressure to send spacecraft to these bodies will grow, as, among the tens or hundreds of large objects, some will emerge as high priorities for science and exploration missions. It is subsequently necessary to prepare the technologies required for such spacecraft. In addition, being able to achieve a fast journey to a distant object will benefit also missions to closer targets.
Thales Alenia Space has carried out a preliminary parameter exploration of such a mission with a challenging target: an orbiter in the Haumean system. The main parameters are the characteristics of the propulsion and power system, as well as the masses of the spacecraft. The exploration has inferred the technological improvement needed for reaching these objects within a reasonable time. |
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| AbstractList | With the recent discoveries of planetary objects beyond Neptune and Pluto, the vast majority of all sizeable Solar System planetary objects lie now beyond Uranus, where insertion into orbit after a reasonably short travel is still not within the current capabilities of our spacecraft. Being able to go and stop at a transneptunian dwarf planet would represent a step stone for ambitious long-term goals. The pressure to send spacecraft to these bodies will grow, as, among the tens or hundreds of large objects, some will emerge as high priorities for science and exploration missions. It is subsequently necessary to prepare the technologies required for such spacecraft. In addition, being able to achieve a fast journey to a distant object will benefit also missions to closer targets. Thales Alenia Space has carried out a preliminary parameter exploration of such a mission with a challenging target: an orbiter in the Haumean system. The main parameters are the characteristics of the propulsion and power system, as well as the masses of the spacecraft. The exploration has inferred the technological improvement needed for reaching these objects within a reasonable time. With the recent discoveries of planetary objects beyond Neptune and Pluto, the vast majority of all sizeable Solar System planetary objects lie now beyond Uranus, where insertion into orbit after a reasonably short travel is still not within the current capabilities of our spacecraft. Being able to go and stop at a transneptunian dwarf planet would represent a step stone for ambitious long-term goals. The pressure to send spacecraft to these bodies will grow, as, among the tens or hundreds of large objects, some will emerge as high priorities for science and exploration missions. It is subsequently necessary to prepare the technologies required for such spacecraft. In addition, being able to achieve a fast journey to a distant object will benefit also missions to closer targets. Thales Alenia Space has carried out a preliminary parameter exploration of such a mission with a challenging target: an orbiter in the Haumean system. The main parameters are the characteristics of the propulsion and power system, as well as the masses of the spacecraft. The exploration has inferred the technological improvement needed for reaching these objects within a reasonable time. |
| Author | Martinot, Vincent Poncy, Joel Fontdecaba Baig, Jordi Feresin, Fred |
| Author_xml | – sequence: 1 givenname: Joel surname: Poncy fullname: Poncy, Joel email: joel.poncy@thalesaleniaspace.com organization: Thales Alenia Space, 100 Boulevard du Midi, 06156 Cannes, France – sequence: 2 givenname: Jordi surname: Fontdecaba Baig fullname: Fontdecaba Baig, Jordi organization: Thales Alenia Space, 26 Avenue, J. F. Champollion, 31037 Toulouse, France – sequence: 3 givenname: Fred surname: Feresin fullname: Feresin, Fred organization: Thales Alenia Space, 100 Boulevard du Midi, 06156 Cannes, France – sequence: 4 givenname: Vincent surname: Martinot fullname: Martinot, Vincent organization: Thales Alenia Space, 26 Avenue, J. F. Champollion, 31037 Toulouse, France |
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| References | D. Ragozzine, M.E. Brown, Orbits and masses of the satellites of the dwarf planet Haumea, arXiv:0903.4213v1, 2009. W.M. Grundy, W.B. McKinnon, et al., Exploration strategy for the ice dwarf planets 2013–2022, SBAG Community White Paper. M. Noca, et al., Evaluating advanced propulsion systems for the titan explorer mission, IEPC-01-175 , in: 27th International Electric Propulsion Conference, Pasadena, CA, 15–19 October, 2001. T. Dargent, V. Martinot, An integrated tool for low thrust optimal control orbit transfers in interplanetary trajectories, in: Proceedings of the 18th International Symposium on Space Flight Dynamics, Munich, ESOC-ESA, 2004. J.P. Squire, et al., High Power VASIMIR experiments using deuterium, neon and argon, in: IEPC-2007-181, The 30th International Electric Propulsion Conference, Florence, Italy, September 17–20, 2007. M.A. Noca, et al., Reaching the outer planets with nuclear electric propulsion: trades, sensitivities, and the case for a Neptune System Explorer, in: STAIF Conference: 20th Symposium on Space Nuclear Power, 2003. A.E. Petropoulos, et al., Simple Control laws for continuous-thrust escape or capture and their use in optimisation, in: AIAA, 2002. Lawden (bib6) 1958; 4 J.O. Elliot, et al., NEPTranS: a shuttle-tended NEP interplanetary transportation system, in: 20th Symposium on Space Nuclear Power and Propulsion, STAIF Conference, Alburqueque, New Mexico, February 2003. M. Vassile, et al., Options for a mission to Pluto and beyond, in: 12th AAS/AIAA Space Flight Mechanics Meeting, Ponce, Puerto Rico, 9–13 February, 2003. Brown (bib2) 2005; 632 C.H. Yam, et al., Preliminary designing of nuclear electric propulsion missions to the outer planets, in: AIAA/AAS Astrodynamics Specialist Conference and Exhibit, 16–19 August, Providence, Rhode Island, 2004. Brown (10.1016/j.actaastro.2010.04.011_bib2) 2005; 632 10.1016/j.actaastro.2010.04.011_bib4 10.1016/j.actaastro.2010.04.011_bib3 10.1016/j.actaastro.2010.04.011_bib12 10.1016/j.actaastro.2010.04.011_bib11 10.1016/j.actaastro.2010.04.011_bib1 10.1016/j.actaastro.2010.04.011_bib10 10.1016/j.actaastro.2010.04.011_bib8 Lawden (10.1016/j.actaastro.2010.04.011_bib6) 1958; 4 10.1016/j.actaastro.2010.04.011_bib7 10.1016/j.actaastro.2010.04.011_bib5 10.1016/j.actaastro.2010.04.011_bib9 |
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| Title | A preliminary assessment of an orbiter in the Haumean system: How quickly can a planetary orbiter reach such a distant target? |
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