Limits on Dione's activity using Cassini/CIRS data
Geophysical Research Letters Wiley 45:12 (2018) 5876-5898
Abstract:
We use nighttime Cassini Composite Infrared Spectrometer (CIRS) data to look for discrete regions of elevated nighttime temperatures indicative of endogenic activity on Dione's surface. This is achieved by producing low latitude and midlatitude (less than 60°) maps of Dione's nighttime surface temperature, derived from 10 to 1,100-cm−1 CIRS data. The surface temperatures observed do not show evidence of any small discrete regions of elevated nighttime temperatures and are comparable to temperatures predicted by a passive thermophysical model of Dione's surface. Thus, we conclude that no evidence for activity exists on Dione at midlatitude to low latitude. Using the derived surface temperature maps, we set upper limits for the temperature at which a 50-, 100-, or 200-km2 hot spot would remain undetected by this study. We find the mean temperature of such a hot spot would be 117.1 ± 47.2 K (−249 F), 104.8 ± 27.7 K (−272 F), and 95.4 ± 19.5 K (−288 F) for a 50-, 100-, and 200-km2 hot spot, respectively, corresponding to endogenic emission of 1.07, 0.68, and 0.47 GW.Cold cases: What we don't know about Saturn's Moons
Planetary and Space Science Elsevier 155 (2018) 41-49
Corrigendum to: Further Evidence of a Brown Dwarf Orbiting the Post-Common Envelope Eclipsing Binary V470 Cam (HS 0705+6700)
Open Astronomy (2018)
Abstract:
© 2018 D. Bogensberger, published by De Gruyter. "Eclipse times for HS 0705+6700 which Bogensberger et al. (2017, Open Astronomy 26, 134, their table 2) list are exposure-start times; times of mid-exposure are obtained by adding thirty seconds (0.00035 days) to each entry. Third body orbital parameterswhich Bogensberger et al. deduce are superseded by the analysis of more recent data, to be the subject of a future publication".The proposed Caroline ESA M3 mission to a Main Belt Comet
Advances in Space Research Elsevier 62:8 (2018) 1921-1946
Abstract:
We describe Caroline, a mission proposal submitted to the European Space Agency in 2010 in response to the Cosmic Visions M3 call for medium-sized missions. Caroline would have travelled to a Main Belt Comet (MBC), characterizing the object during a flyby, and capturing dust from its tenuous coma for return to Earth. MBCs are suspected to be transition objects straddling the traditional boundary between volatile–poor rocky asteroids and volatile–rich comets. The weak cometary activity exhibited by these objects indicates the presence of water ice, and may represent the primary type of object that delivered water to the early Earth. The Caroline mission would have employed aerogel as a medium for the capture of dust grains, as successfully used by the NASA Stardust mission to Comet 81P/Wild 2. We describe the proposed mission design, primary elements of the spacecraft, and provide an overview of the science instruments and their measurement goals. Caroline was ultimately not selected by the European Space Agency during the M3 call; we briefly reflect on the pros and cons of the mission as proposed, and how current and future mission MBC mission proposals such as Castalia could best be approached.Impact splash chondrule formation during planetesimal recycling
Icarus Elsevier BV 302 (2018) 27-43