Vision and Voyages for Planetary Science in the - Solar System ...
Vision and Voyages for Planetary Science in the - Solar System ...
Vision and Voyages for Planetary Science in the - Solar System ...
Create successful ePaper yourself
Turn your PDF publications into a flip-book with our unique Google optimized e-Paper software.
72. G.S. Orton, P.A. Yanam<strong>and</strong>ra-Fisher, B.M. Fisher, A.J. Friedson, P.D. Parrish, J.F. Nelson,<br />
A.S. Bauermeister, L. Fletcher, D.Y. Gezari, F. Varosi, A.T. Tokunaga, et al. 2008. Semi-annual<br />
oscillations <strong>in</strong> Saturn’s low-latitude stratospheric temperatures. Nature 453:196-199.<br />
73. T. Fouchet, S. Guerlet, D.F. Strobel, A.A. Simon-Miller, B. Bézard, <strong>and</strong> F.M. Flasar. 2008.<br />
An equatorial oscillation <strong>in</strong> Saturn’s middle atmosphere. Nature 453:200-202.<br />
74. G.S. Orton <strong>and</strong> P.A. Yanam<strong>and</strong>ra-Fisher. 2005. Saturn’s temperature field from highresolution<br />
middle-<strong>in</strong>frared imag<strong>in</strong>g. <strong>Science</strong> 307:696-698.<br />
75. Orton et al. unpublished data. .<br />
76. H.B. Hammel, M.L. Sitko, G.S. Orton, T. Geballe, D.K. Lynch, R.W. Russell, <strong>and</strong><br />
I. de Pater. 2007. Distribution of ethane <strong>and</strong> methane emission on Neptune. Astronomical Journal<br />
134:637-641.<br />
77. White papers received by decadal survey: Karla B. Clark, Europa Jupiter <strong>System</strong> Mission;<br />
William B. McK<strong>in</strong>non, Exploration Strategy <strong>for</strong> <strong>the</strong> Outer Planets 2013-2022: Goals <strong>and</strong> Priorities, <strong>and</strong><br />
to some extent by Cass<strong>in</strong>i <strong>for</strong> Saturn; L<strong>in</strong>da J. Spilker, Cass<strong>in</strong>i-Huygens Solstice Mission; Glenn S. Orton,<br />
Earth-Based Observational Support <strong>for</strong> Spacecraft Exploration of Outer-Planet Atmospheres; Mark<br />
Hofstadter, The Case <strong>for</strong> a Uranus Orbiter; C. Agnor, The Exploration of Neptune <strong>and</strong> Triton; Wesley A.<br />
Traub, Exoplanets <strong>and</strong> <strong>Solar</strong> <strong>System</strong> Exploration.<br />
78. White paper received by decadal survey: L<strong>in</strong>da J. Spilker, Cass<strong>in</strong>i-Huygens Solstice Mission.<br />
79. White papers received by decadal survey: L<strong>in</strong>da J. Spilker, Cass<strong>in</strong>i-Huygens Solstice<br />
Mission; Karla B. Clark, Europa Jupiter <strong>System</strong> Mission.<br />
80. V. La<strong>in</strong>ey <strong>and</strong> T. van Hoolst. 2009. Jovian tidal dissipation from <strong>in</strong>ner satellite dynamics.<br />
European <strong>Planetary</strong> <strong>Science</strong> Congress 2009. EPSC Abstracts 4:EPSC2009-392.<br />
81. See, e.g., A.P. Ingersoll, T.E. Dowl<strong>in</strong>g, P.J. Gierasch, G.S. Orton, P.L. Read, A. Sanchez-<br />
Lavega, A.P. Showman, A.A. Simon-Miller, <strong>and</strong> A.R. Vasavada. 2004. Dynamics of Jupiter’s<br />
atmosphere. Pp. 105-128 <strong>in</strong> Jupiter: The Planet, Satellites <strong>and</strong> Magnetosphere (F. Bagenal, T. Dowl<strong>in</strong>g,<br />
<strong>and</strong> W. McK<strong>in</strong>non, eds.). Cambridge University Press, New York.<br />
82. A. Sanchez-Lavega, S. Perez-Hoyos, J.F. Rojas, R. Hueso, <strong>and</strong> R.G. French. 2003. A strong<br />
decrease <strong>in</strong> Saturn’s equatorial jet at cloud level. Nature 423:623-625.<br />
83. F.M. Flasar, R.K. Achterberg, B.J. Conrath, J.C. Pearl, G.L. Bjoraker, D.E. Jenn<strong>in</strong>gs, P.N.<br />
Romani, A.A. Simon-Miller, V.G. Kunde, C.A. Nixon, B. Bézard, G.S. Orton, et al. 2005. Temperatures,<br />
w<strong>in</strong>ds, <strong>and</strong> composition <strong>in</strong> <strong>the</strong> saturnian system. <strong>Science</strong> 307:1247-1251.<br />
84. S. Pérez-Hoyos <strong>and</strong> A. Sánchez-Lavega. 2006. On <strong>the</strong> vertical w<strong>in</strong>d shear of Saturn’s<br />
equatorial jet at cloud level. Icarus 180:161-175.<br />
85. A.W. Br<strong>in</strong>kman <strong>and</strong> J. McGregor. 1979. The effect of <strong>the</strong> r<strong>in</strong>g system on <strong>the</strong> solar radiation<br />
reach<strong>in</strong>g <strong>the</strong> top of Saturn’s atmosphere: Direct radiation. Icarus 38:479-482.<br />
86. L.A. Sromovsky, P.M. Fry, S.S. Limaye, <strong>and</strong> K.H. Ba<strong>in</strong>es. 2003. The nature of Neptune’s<br />
<strong>in</strong>creas<strong>in</strong>g brightness: Evidence <strong>for</strong> a seasonal response. Icarus 163:256-261.<br />
87. H.B. Hammel <strong>and</strong> G.W. Lockwood. 2007. Long-term atmospheric variability on Uranus <strong>and</strong><br />
Neptune. Icarus 186:291-301.<br />
88. L.A. Sromovsky, P.M. Fry, W.M. Ahue, H.B. Hammel, I. de Pater, K.A. Rages,<br />
M.R. Showalter, <strong>and</strong> M.A. van Dam. 2009. Uranus at equ<strong>in</strong>ox: Cloud morphology <strong>and</strong> dynamics. Icarus<br />
203:265-286.<br />
89. L.A. Sromovsky <strong>and</strong> P.M. Fry. 2005. Dynamics of cloud features on Uranus. Icarus 179:459-<br />
484.<br />
90. H.B. Hammel, L.A. Sromovsky, P.M. Fry, K.A. Rages, M.R. Showalter, I. de Pater, M.A.<br />
van Dam, R.P. LeBeau, <strong>and</strong> X. Deng. 2009. The dark spot <strong>in</strong> <strong>the</strong> atmosphere of Uranus <strong>in</strong> 2006:<br />
Discovery, description, <strong>and</strong> dynamical simulations. Icarus 201:257-271.<br />
91. S.H. Luszcz-Cook, I. de Pater, H.B. Hammel, <strong>and</strong> M. Ádámkovics. 2010. See<strong>in</strong>g double at<br />
Neptune’s south pole. Icarus, <strong>in</strong> press.<br />
PREPUBLICATION COPY—SUBJECT TO FURTHER EDITORIAL CORRECTION<br />
7-43
Change language