Uranus Pathfinder: exploring the origins and evolution of Ice Giant planets

Christopher S. Arridge; Craig B. Agnor; Nicolas Andre; Kevin H. Baines; Leigh N. Fletcher; Daniel Gautier; Mark D. Hofstadter; Geraint H. Jones; Laurent Lamy; Yves Langevin; Olivier Mousis; Nadine Nettelmann; Christopher T. Russell; Tom Stallard; Matthew S. Tiscareno; Gabriel Tobie; Andrew Bacon; Chris Chaloner; Michael Guest; Steve Kemble; Lisa Peacocke; Nicholas Achilleos; Thomas P. Andert; Don Banfield; Stas Barabash; Mathieu Barthelemy; Cesar Bertucci; Pontus Brandt; Baptiste Cecconi; Supriya Chakrabarti; Andy F. Cheng; Ulrich Christensen; Apostolos Christou; Andrew J. Coates; Glyn Collinson; John F. Cooper; Regis Courtin; Michele K. Dougherty; Robert W. Ebert; Marta Entradas; Andrew N. Fazakerley; Jonathan J. Fortney; Marina Galand; Jaques Gustin; Matthew Hedman; Ravit Helled; Pierre Henri; Sebastien Hess; Richard Holme; Ozgur Karatekin; Norbert Krupp; Jared Leisner; Javier Martin-Torres; Adam Masters; Henrik Melin; Steve Miller; Ingo Mueller-Wodarg; Benoit Noyelles; Chris Paranicas; Imke de Pater; Martin Paetzold; Renee Prange; Eric Quemerais; Elias Roussos; Abigail M. Rymer; Agustin Sanchez-Lavega; Joachim Saur; Kunio M. Sayanagi; Paul Schenk; Gerald Schubert; Nick Sergis; Frank Sohl; Edward C., Jr. Sittler; Nick A. Teanby; Silvia Tellmann; Elizabeth P. Turtle; Sandrine Vinatier; Jan-Erik Wahlund; Philippe Zarka

doi:10.1007/s10686-011-9251-4

Uranus Pathfinder: exploring the origins and evolution of Ice Giant planets

Christopher S. Arridge^*, Craig B. Agnor, Nicolas Andre, Kevin H. Baines, Leigh N. Fletcher, Daniel Gautier, Mark D. Hofstadter, Geraint H. Jones, Laurent Lamy, Yves Langevin, Olivier Mousis, Nadine Nettelmann, Christopher T. Russell, Tom Stallard, Matthew S. Tiscareno, Gabriel Tobie, Andrew Bacon, Chris Chaloner, Michael Guest, Steve KembleLisa Peacocke, Nicholas Achilleos, Thomas P. Andert, Don Banfield, Stas Barabash, Mathieu Barthelemy, Cesar Bertucci, Pontus Brandt, Baptiste Cecconi, Supriya Chakrabarti, Andy F. Cheng, Ulrich Christensen, Apostolos Christou, Andrew J. Coates, Glyn Collinson, John F. Cooper, Regis Courtin, Michele K. Dougherty, Robert W. Ebert, Marta Entradas, Andrew N. Fazakerley, Jonathan J. Fortney, Marina Galand, Jaques Gustin, Matthew Hedman, Ravit Helled, Pierre Henri, Sebastien Hess, Richard Holme, Ozgur Karatekin, Norbert Krupp, Jared Leisner, Javier Martin-Torres, Adam Masters, Henrik Melin, Steve Miller, Ingo Mueller-Wodarg, Benoit Noyelles, Chris Paranicas, Imke de Pater, Martin Paetzold, Renee Prange, Eric Quemerais, Elias Roussos, Abigail M. Rymer, Agustin Sanchez-Lavega, Joachim Saur, Kunio M. Sayanagi, Paul Schenk, Gerald Schubert, Nick Sergis, Frank Sohl, Edward C., Jr. Sittler, Nick A. Teanby, Silvia Tellmann, Elizabeth P. Turtle, Sandrine Vinatier, Jan-Erik Wahlund, Philippe Zarka

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

53 Citations (Scopus)

Abstract

The “Ice Giants” Uranus and Neptune are a different class of planet compared to Jupiter and Saturn. Studying these objects is important for furthering our understanding of the formation and evolution of the planets, and unravelling the fundamental physical and chemical processes in the Solar System. The importance of filling these gaps in our knowledge of the Solar System is particularly acute when trying to apply our understanding to the numerous planetary systems that have been discovered around other stars. The Uranus Pathfinder (UP) mission thus represents the quintessential aspects of the objectives of the European planetary community as expressed in ESA’s Cosmic Vision 2015–2025. UP was proposed to the European Space Agency’s M3 call for medium-class missions in 2010 and proposed to be the first orbiter of an Ice Giant planet. As the most accessible Ice Giant within the M-class mission envelope Uranus was identified as the mission target. Although not selected for this call the UP mission concept provides a baseline framework for the exploration of Uranus with existing low-cost platforms and underlines the need to develop power sources suitable for the outer Solar System. The UP science case is based around exploring the origins, evolution, and processes at work in Ice Giant planetary systems. Three broad themes were identified: (1) Uranus as an Ice Giant, (2) An Ice Giant planetary system, and (3) An asymmetric magnetosphere. Due to the long interplanetary transfer from Earth to Uranus a significant cruise-phase science theme was also developed. The UP mission concept calls for the use of a Mars Express/Rosetta-type platform to launch on a Soyuz–Fregat in 2021 and entering into an eccentric polar orbit around Uranus in the 2036–2037 timeframe. The science payload has a strong heritage in Europe and beyond and requires no significant technology developments.

Original language	English
Pages (from-to)	753-791
Number of pages	38
Journal	Experimental Astronomy
Volume	33
Issue number	2-3
DOIs	https://doi.org/10.1007/s10686-011-9251-4
Publication status	Published - 1 Apr 2012
Externally published	Yes

Keywords

Uranus
Ice Giant
Orbiter
Giant planet atmosphere
Ring system
Interior
Dynamo
Magnetosphere
Natural satellite

Access to Document

10.1007/s10686-011-9251-4

Cite this

Arridge, C. S., Agnor, C. B., Andre, N., Baines, K. H., Fletcher, L. N., Gautier, D., Hofstadter, M. D., Jones, G. H., Lamy, L., Langevin, Y., Mousis, O., Nettelmann, N., Russell, C. T., Stallard, T., Tiscareno, M. S., Tobie, G., Bacon, A., Chaloner, C., Guest, M., ... Zarka, P. (2012). Uranus Pathfinder: exploring the origins and evolution of Ice Giant planets. Experimental Astronomy, 33(2-3), 753-791. https://doi.org/10.1007/s10686-011-9251-4

@article{7c0b7ad3e17b4270837cb2931f184aab,

title = "Uranus Pathfinder: exploring the origins and evolution of Ice Giant planets",

abstract = "The “Ice Giants” Uranus and Neptune are a different class of planet compared to Jupiter and Saturn. Studying these objects is important for furthering our understanding of the formation and evolution of the planets, and unravelling the fundamental physical and chemical processes in the Solar System. The importance of filling these gaps in our knowledge of the Solar System is particularly acute when trying to apply our understanding to the numerous planetary systems that have been discovered around other stars. The Uranus Pathfinder (UP) mission thus represents the quintessential aspects of the objectives of the European planetary community as expressed in ESA{\textquoteright}s Cosmic Vision 2015–2025. UP was proposed to the European Space Agency{\textquoteright}s M3 call for medium-class missions in 2010 and proposed to be the first orbiter of an Ice Giant planet. As the most accessible Ice Giant within the M-class mission envelope Uranus was identified as the mission target. Although not selected for this call the UP mission concept provides a baseline framework for the exploration of Uranus with existing low-cost platforms and underlines the need to develop power sources suitable for the outer Solar System. The UP science case is based around exploring the origins, evolution, and processes at work in Ice Giant planetary systems. Three broad themes were identified: (1) Uranus as an Ice Giant, (2) An Ice Giant planetary system, and (3) An asymmetric magnetosphere. Due to the long interplanetary transfer from Earth to Uranus a significant cruise-phase science theme was also developed. The UP mission concept calls for the use of a Mars Express/Rosetta-type platform to launch on a Soyuz–Fregat in 2021 and entering into an eccentric polar orbit around Uranus in the 2036–2037 timeframe. The science payload has a strong heritage in Europe and beyond and requires no significant technology developments.",

keywords = "Uranus, Ice Giant, Orbiter, Giant planet atmosphere, Ring system, Interior, Dynamo, Magnetosphere, Natural satellite",

author = "Arridge, {Christopher S.} and Agnor, {Craig B.} and Nicolas Andre and Baines, {Kevin H.} and Fletcher, {Leigh N.} and Daniel Gautier and Hofstadter, {Mark D.} and Jones, {Geraint H.} and Laurent Lamy and Yves Langevin and Olivier Mousis and Nadine Nettelmann and Russell, {Christopher T.} and Tom Stallard and Tiscareno, {Matthew S.} and Gabriel Tobie and Andrew Bacon and Chris Chaloner and Michael Guest and Steve Kemble and Lisa Peacocke and Nicholas Achilleos and Andert, {Thomas P.} and Don Banfield and Stas Barabash and Mathieu Barthelemy and Cesar Bertucci and Pontus Brandt and Baptiste Cecconi and Supriya Chakrabarti and Cheng, {Andy F.} and Ulrich Christensen and Apostolos Christou and Coates, {Andrew J.} and Glyn Collinson and Cooper, {John F.} and Regis Courtin and Dougherty, {Michele K.} and Ebert, {Robert W.} and Marta Entradas and Fazakerley, {Andrew N.} and Fortney, {Jonathan J.} and Marina Galand and Jaques Gustin and Matthew Hedman and Ravit Helled and Pierre Henri and Sebastien Hess and Richard Holme and Ozgur Karatekin and Norbert Krupp and Jared Leisner and Javier Martin-Torres and Adam Masters and Henrik Melin and Steve Miller and Ingo Mueller-Wodarg and Benoit Noyelles and Chris Paranicas and {de Pater}, Imke and Martin Paetzold and Renee Prange and Eric Quemerais and Elias Roussos and Rymer, {Abigail M.} and Agustin Sanchez-Lavega and Joachim Saur and Sayanagi, {Kunio M.} and Paul Schenk and Gerald Schubert and Nick Sergis and Frank Sohl and Sittler, {Edward C., Jr.} and Teanby, {Nick A.} and Silvia Tellmann and Turtle, {Elizabeth P.} and Sandrine Vinatier and Jan-Erik Wahlund and Philippe Zarka",

year = "2012",

month = apr,

day = "1",

doi = "10.1007/s10686-011-9251-4",

language = "English",

volume = "33",

pages = "753--791",

journal = "Experimental Astronomy",

issn = "0922-6435",

publisher = "Springer",

number = "2-3",

}

Arridge, CS, Agnor, CB, Andre, N, Baines, KH, Fletcher, LN, Gautier, D, Hofstadter, MD, Jones, GH, Lamy, L, Langevin, Y, Mousis, O, Nettelmann, N, Russell, CT, Stallard, T, Tiscareno, MS, Tobie, G, Bacon, A, Chaloner, C, Guest, M, Kemble, S, Peacocke, L, Achilleos, N, Andert, TP, Banfield, D, Barabash, S, Barthelemy, M, Bertucci, C, Brandt, P, Cecconi, B, Chakrabarti, S, Cheng, AF, Christensen, U, Christou, A, Coates, AJ, Collinson, G, Cooper, JF, Courtin, R, Dougherty, MK, Ebert, RW, Entradas, M, Fazakerley, AN, Fortney, JJ, Galand, M, Gustin, J, Hedman, M, Helled, R, Henri, P, Hess, S, Holme, R, Karatekin, O, Krupp, N, Leisner, J, Martin-Torres, J, Masters, A, Melin, H, Miller, S, Mueller-Wodarg, I, Noyelles, B, Paranicas, C, de Pater, I, Paetzold, M, Prange, R, Quemerais, E, Roussos, E, Rymer, AM, Sanchez-Lavega, A, Saur, J, Sayanagi, KM, Schenk, P, Schubert, G, Sergis, N, Sohl, F, Sittler, ECJ, Teanby, NA, Tellmann, S, Turtle, EP, Vinatier, S, Wahlund, J-E & Zarka, P 2012, 'Uranus Pathfinder: exploring the origins and evolution of Ice Giant planets', Experimental Astronomy, vol. 33, no. 2-3, pp. 753-791. https://doi.org/10.1007/s10686-011-9251-4

TY - JOUR

T1 - Uranus Pathfinder: exploring the origins and evolution of Ice Giant planets

AU - Arridge, Christopher S.

AU - Agnor, Craig B.

AU - Andre, Nicolas

AU - Baines, Kevin H.

AU - Fletcher, Leigh N.

AU - Gautier, Daniel

AU - Hofstadter, Mark D.

AU - Jones, Geraint H.

AU - Lamy, Laurent

AU - Langevin, Yves

AU - Mousis, Olivier

AU - Nettelmann, Nadine

AU - Russell, Christopher T.

AU - Stallard, Tom

AU - Tiscareno, Matthew S.

AU - Tobie, Gabriel

AU - Bacon, Andrew

AU - Chaloner, Chris

AU - Guest, Michael

AU - Kemble, Steve

AU - Peacocke, Lisa

AU - Achilleos, Nicholas

AU - Andert, Thomas P.

AU - Banfield, Don

AU - Barabash, Stas

AU - Barthelemy, Mathieu

AU - Bertucci, Cesar

AU - Brandt, Pontus

AU - Cecconi, Baptiste

AU - Chakrabarti, Supriya

AU - Cheng, Andy F.

AU - Christensen, Ulrich

AU - Christou, Apostolos

AU - Coates, Andrew J.

AU - Collinson, Glyn

AU - Cooper, John F.

AU - Courtin, Regis

AU - Dougherty, Michele K.

AU - Ebert, Robert W.

AU - Entradas, Marta

AU - Fazakerley, Andrew N.

AU - Fortney, Jonathan J.

AU - Galand, Marina

AU - Gustin, Jaques

AU - Hedman, Matthew

AU - Helled, Ravit

AU - Henri, Pierre

AU - Hess, Sebastien

AU - Holme, Richard

AU - Karatekin, Ozgur

AU - Krupp, Norbert

AU - Leisner, Jared

AU - Martin-Torres, Javier

AU - Masters, Adam

AU - Melin, Henrik

AU - Miller, Steve

AU - Mueller-Wodarg, Ingo

AU - Noyelles, Benoit

AU - Paranicas, Chris

AU - de Pater, Imke

AU - Paetzold, Martin

AU - Prange, Renee

AU - Quemerais, Eric

AU - Roussos, Elias

AU - Rymer, Abigail M.

AU - Sanchez-Lavega, Agustin

AU - Saur, Joachim

AU - Sayanagi, Kunio M.

AU - Schenk, Paul

AU - Schubert, Gerald

AU - Sergis, Nick

AU - Sohl, Frank

AU - Sittler, Edward C., Jr.

AU - Teanby, Nick A.

AU - Tellmann, Silvia

AU - Turtle, Elizabeth P.

AU - Vinatier, Sandrine

AU - Wahlund, Jan-Erik

AU - Zarka, Philippe

PY - 2012/4/1

Y1 - 2012/4/1

N2 - The “Ice Giants” Uranus and Neptune are a different class of planet compared to Jupiter and Saturn. Studying these objects is important for furthering our understanding of the formation and evolution of the planets, and unravelling the fundamental physical and chemical processes in the Solar System. The importance of filling these gaps in our knowledge of the Solar System is particularly acute when trying to apply our understanding to the numerous planetary systems that have been discovered around other stars. The Uranus Pathfinder (UP) mission thus represents the quintessential aspects of the objectives of the European planetary community as expressed in ESA’s Cosmic Vision 2015–2025. UP was proposed to the European Space Agency’s M3 call for medium-class missions in 2010 and proposed to be the first orbiter of an Ice Giant planet. As the most accessible Ice Giant within the M-class mission envelope Uranus was identified as the mission target. Although not selected for this call the UP mission concept provides a baseline framework for the exploration of Uranus with existing low-cost platforms and underlines the need to develop power sources suitable for the outer Solar System. The UP science case is based around exploring the origins, evolution, and processes at work in Ice Giant planetary systems. Three broad themes were identified: (1) Uranus as an Ice Giant, (2) An Ice Giant planetary system, and (3) An asymmetric magnetosphere. Due to the long interplanetary transfer from Earth to Uranus a significant cruise-phase science theme was also developed. The UP mission concept calls for the use of a Mars Express/Rosetta-type platform to launch on a Soyuz–Fregat in 2021 and entering into an eccentric polar orbit around Uranus in the 2036–2037 timeframe. The science payload has a strong heritage in Europe and beyond and requires no significant technology developments.

AB - The “Ice Giants” Uranus and Neptune are a different class of planet compared to Jupiter and Saturn. Studying these objects is important for furthering our understanding of the formation and evolution of the planets, and unravelling the fundamental physical and chemical processes in the Solar System. The importance of filling these gaps in our knowledge of the Solar System is particularly acute when trying to apply our understanding to the numerous planetary systems that have been discovered around other stars. The Uranus Pathfinder (UP) mission thus represents the quintessential aspects of the objectives of the European planetary community as expressed in ESA’s Cosmic Vision 2015–2025. UP was proposed to the European Space Agency’s M3 call for medium-class missions in 2010 and proposed to be the first orbiter of an Ice Giant planet. As the most accessible Ice Giant within the M-class mission envelope Uranus was identified as the mission target. Although not selected for this call the UP mission concept provides a baseline framework for the exploration of Uranus with existing low-cost platforms and underlines the need to develop power sources suitable for the outer Solar System. The UP science case is based around exploring the origins, evolution, and processes at work in Ice Giant planetary systems. Three broad themes were identified: (1) Uranus as an Ice Giant, (2) An Ice Giant planetary system, and (3) An asymmetric magnetosphere. Due to the long interplanetary transfer from Earth to Uranus a significant cruise-phase science theme was also developed. The UP mission concept calls for the use of a Mars Express/Rosetta-type platform to launch on a Soyuz–Fregat in 2021 and entering into an eccentric polar orbit around Uranus in the 2036–2037 timeframe. The science payload has a strong heritage in Europe and beyond and requires no significant technology developments.

KW - Uranus

KW - Ice Giant

KW - Orbiter

KW - Giant planet atmosphere

KW - Ring system

KW - Interior

KW - Dynamo

KW - Magnetosphere

KW - Natural satellite

U2 - 10.1007/s10686-011-9251-4

DO - 10.1007/s10686-011-9251-4

M3 - Article

SN - 0922-6435

VL - 33

SP - 753

EP - 791

JO - Experimental Astronomy

JF - Experimental Astronomy

IS - 2-3

ER -