Evidence that Pluto's atmosphere does not collapse from occultations including the 2013 May 04 event | Instituto de Astrofísica de Andalucía

DOI:

10.1016/j.icarus.2014.03.026

Publication date:

15/01/2015

Main author:

Olkin C.B.

IAA authors:

Morales N.;Ortiz J.L.

Authors:

Olkin C.B., Young L.A., Borncamp D., Pickles A., Sicardy B., Assafin M., Bianco F.B., Buie M.W., De Oliveira A.D., Gillon M., French R.G., Ramos Gomes A., Jr., Jehin E., Morales N., Opitom C., Ortiz J.L., Maury A., Norbury M., Braga-Ribas F., Smith R., Wasserman L.H., Young E.F., Zacharias M., Zacharias N.

Journal:

Icarus

Publication type:

Article

Volume:

246

Pages:

220-225

Number:

Abstract:

Combining stellar occultation observations probing Pluto's atmosphere from 1988 to 2013, and models of energy balance between Pluto's surface and atmosphere, we find the preferred models are consistent with Pluto retaining a collisional atmosphere throughout its 248-year orbit. The occultation results show an increasing atmospheric pressure with time in the current epoch, a trend present only in models with a high thermal inertia and a permanent N<inf>2</inf> ice cap at Pluto's north rotational pole. © 2014 The Authors.

Database:

WOK

SCOPUS

ADS

URL:

https://ui.adsabs.harvard.edu/#abs/2015Icar..246..220O/abstract

ADS Bibcode:

2015Icar..246..220O

Keywords:

Atmospheres, evolution; Occultations; Pluto, atmosphere; Pluto, surface