Washboard and fluted terrains on Pluto as evidence for ancient glaciation

Nature Astronomy Springer Nature 3:1 (2019) 62-68

Authors:

Oliver L White, Jeffrey M Moore, Alan D Howard, William B McKinnon, James T Keane, Kelsi N Singer, Tanguy Bertrand, Stuart J Robbins, Paul M Schenk, Bernard Schmitt, Bonnie J Buratti, S Alan Stern, Kimberly Ennico, Cathy B Olkin, Harold A Weaver, Leslie A Young

Hollow-core fibres for temperature-insensitive fibre optics and its demonstration in an Optoelectronic oscillator

Scientific Reports Springer Nature 8:1 (2018) 18015

Authors:

US Mutugala, ER Numkam Fokoua, Y Chen, T Bradley, SR Sandoghchi, GT Jasion, R Curtis, MN Petrovich, F Poletti, DJ Richardson, R Slavík

Analysis of gaseous ammonia (NH$_3$) absorption in the visible spectrum of Jupiter - Update

(2018)

Authors:

Patrick GJ Irwin, Neil Bowles, Ashwin S Braude, Ryan Garland, Simon Calcutt, Phillip A Coles, Sergey N Yurchenko, Jonathan Tennyson

Probable detection of hydrogen sulphide (H$_2$S) in Neptune's atmosphere

(2018)

Authors:

Patrick GJ Irwin, Daniel Toledo, Ryan Garland, Nicholas A Teanby, Leigh N Fletcher, Glenn S Orton, Bruno Bézard

Wave-mean flow interactions in the atmospheric circulation of tidally locked planets

Astrophysical Journal IOP Publishing 869:1 (2018)

Authors:

Mark Hammond, Raymond Pierrehumbert

Abstract:

We use a linear shallow-water model to investigate the global circulation of the atmospheres of tidally locked planets. Simulations, observations, and simple models show that if these planets are sufficiently rapidly rotating, their atmospheres have an eastward equatorial jet and a hot-spot east of the substellar point. We linearize the shallow-water model about this eastward flow and its associated geostrophic height perturbation. The forced solutions of this system show that the shear flow explains the form of the global circulation, particularly the hot-spot shift and the positions of the cold standing waves on the night-side. We suggest that the eastward hot-spot shift in observations and 3D simulations of these atmospheres is caused by the zonal flow Doppler-shifting the stationary wave response eastwards, summed with the geostrophic height perturbation from the flow itself. This differs from other studies which explained the hot-spot shift as pure advection of heat from air flowing eastward from the substellar point, or as equatorial waves travelling eastwards. We compare our solutions to simulations in our climate model Exo-FMS and show that they matched the position of the eastward-shifted hot-spot, and the global wind pattern. We discuss how planetary properties affect the global circulation, and how they change observables such as the hot-spot shift or day-night contrast. We conclude that the wave-mean flow interaction be tween the stationary planetary waves and the equatorial jet is a vital part of the equilibrium circulation on tidally locked planets.