Solar system

Convection in condensible-rich atmospheres

Astrophysical Journal IOP Publishing 822:1 (2016) 24-24

Authors:

F Ding, Raymond Pierrehumbert

Abstract:

Condensible substances are nearly ubiquitous in planetary atmospheres. For the most familiar case—water vapor in Earth's present climate—the condensible gas is dilute, in the sense that its concentration is everywhere small relative to the noncondensible background gases. A wide variety of important planetary climate problems involve nondilute condensible substances. These include planets near or undergoing a water vapor runaway and planets near the outer edge of the conventional habitable zone, for which CO2 is the condensible. Standard representations of convection in climate models rely on several approximations appropriate only to the dilute limit, while nondilute convection differs in fundamental ways from dilute convection. In this paper, a simple parameterization of convection valid in the nondilute as well as dilute limits is derived and used to discuss the basic character of nondilute convection. The energy conservation properties of the scheme are discussed in detail and are verified in radiative-convective simulations. As a further illustration of the behavior of the scheme, results for a runaway greenhouse atmosphere for both steady instellation and seasonally varying instellation corresponding to a highly eccentric orbit are presented. The latter case illustrates that the high thermal inertia associated with latent heat in nondilute atmospheres can damp out the effects of even extreme seasonal forcing.

Pluto's global surface composition through pixel-by-pixel Hapke modeling of New Horizons Ralph/LEISA data

(2016)

Authors:

S Protopapa, WM Grundy, DC Reuter, DP Hamilton, CM Dalle Ore, JC Cook, DP Cruikshank, B Schmitt, S Philippe, E Quirico, RP Binzel, AM Earle, K Ennico, CJA Howett, AW Lunsford, CB Olkin, A Parker, KN Singer, A Stern, AJ Verbiscer, HA Weaver, LA Young, the New Horizons Science Team

Dual-telescope multi-channel thermal-infrared radiometer for outer planet fly-by missions

Acta Astronautica Elsevier 128 (2016) 628-639

Authors:

Shahid Aslam, Michael Amato, Neil Bowles, Simon Calcutt, Tilak Hewagama, Joseph Howard, Carly Howett, Wen-Ting Hsieh, Terry Hurford, Jane Hurley, Patrick Irwin, Donald E Jennings, Ernst Kessler, Brook Lakew, Mark Loeffler, Michael Mellon, Anthony Nicoletti, Conor A Nixon, Nathaniel Putzig, Gerard Quilligan, Julie Rathbun, Marcia Segura, John Spencer, Joseph Spitale, Garrett West

Abstract:

The design of a versatile dual-telescope thermal-infrared radiometer spanning the spectral wavelength range 8–200 µm, in five spectral pass bands, for outer planet fly-by missions is described. The dual-telescope design switches between a narrow-field-of-view and a wide-field-of-view to provide optimal spatial resolution images within a range of spacecraft encounters to the target. The switchable dual-field-of-view system uses an optical configuration based on the axial rotation of a source-select mirror along the optical axis. The optical design, spectral performance, radiometric accuracy, and retrieval estimates of the instrument are discussed. This is followed by an assessment of the surface coverage performance at various spatial resolutions by using the planned NASA Europa Mission 13-F7 fly-by trajectories as a case study.

The Geology of Pluto and Charon Through the Eyes of New Horizons

(2016)

Authors:

Jeffrey M Moore, William B McKinnon, John R Spencer, Alan D Howard, Paul M Schenk, Ross A Beyer, Francis Nimmo, Kelsi N Singer, Orkan M Umurhan, Oliver L White, S Alan Stern, Kimberly Ennico, Cathy B Olkin, Harold A Weaver, Leslie A Young, Richard P Binzel, Marc W Buie, Bonnie J Buratti, Andrew F Cheng, Dale P Cruikshank, Will M Grundy, Ivan R Linscott, Harold J Reitsema, Dennis C Reuter, Mark R Showalter, Veronica J Bray, Carrie L Chavez, Carly JA Howett, Tod R Lauer, Carey M Lisse, Alex Harrison Parker, SB Porter, Simon J Robbins, Kirby Runyon, Ted Stryk, Henry B Throop, Constantine CC Tsang, Anne J Verbiscer, Amanda M Zangari, Andrew L Chaikin, Don E Wilhelms

Surface Compositions Across Pluto and Charon

(2016)

Authors:

WM Grundy, RP Binzel, BJ Buratti, JC Cook, DP Cruikshank, CM Dalle Ore, AM Earle, K Ennico, CJA Howett, AW Lunsford, CB Olkin, AH Parker, S Philippe, S Protopapa, E Quirico, DC Reuter, B Schmitt, KN Singer, AJ Verbiscer, RA Beyer, MW Buie, AF Cheng, DE Jennings, IR Linscott, J Wm Parker, PM Schenk, JR Spencer, JA Stansberry, SA Stern, HB Throop, CCC Tsang, HA Weaver, GE Weigle, LA Young, the New Horizons Science Team