PhD Thesis on modeling the interiors of water-rich moons and planets (M/F)

4 Apr 2024
Job Information

Organisation/Company

CNRS

Department

Laboratoire de Planétologie et Géosciences

Research Field

Astronomy
Astronomy » Astrophysics
Astronomy » Cosmology

Researcher Profile

First Stage Researcher (R1)

Country

France

Application Deadline

24 Apr 2024 - 23:59 (UTC)

Type of Contract

Temporary

Job Status

Full-time

Hours Per Week

35

Offer Starting Date

1 Oct 2024

Is the job funded through the EU Research Framework Programme?

Not funded by an EU programme

Is the Job related to staff position within a Research Infrastructure?

No

Offer Description

The thesis work will be carried out under the supervision of Gabriel Tobie (LPG), Gaël Choblet (LPG) and Livia Bove (IMPMC), as part of the ANR EXOTIC-ICES project, coordinated by L. Bove (IMPMC) and in partnership with LPG and IPGP. The recruited person will be attached to the 3MG Doctoral School (Matter, Materials and Geosciences), and to the Graduate Program Earth and Planetary Sciences of Nantes University. The recruited person will carry out their work within the Laboratory of Planetology and Geosciences (LPG – UMR 6112) , located on the campus of the UFR Sciences and Techniques of Nantes University (bat. 4, 2 rue de la Houssinière, 44322 Nantes) and will be placed under the responsibility of the Director of the UMR.

The Laboratory of Planetology and Geosciences Laboratory (LPG - UMR 6112) is a multidisciplinary research unit created in 2000 and spread across 3 sites: Nantes University, University of Angers and University of Le Mans. LPG is a major international player in the field of Earth and Universe Sciences. The laboratory's objects of study extend over a very broad disciplinary spectrum currently divided into three themes. His research is part of past, current and planned international space missions to the telluric and icy bodies of the solar system.

The recruited person will mainly work on the “Planets and Moons” theme of the LPG, and will be required to collaborate with various teacher-researchers and researchers from the LPG and partner laboratories as part of the ANR EXOTIC-ICES project. International travel is expected.

Exploration of Jupiter's and Saturn's system by space missions (Galileo, Cassini-Huygens) revealed that some of their icy moons possess a salt water ocean under their cold icy surface. Observations of various sulfate and chlorinated salts on the surface of Europa and Ganymede as well as in the eruptive plume of Enceladus suggest an oceanic origin and put some constraints on the possible oceanic composition. For the largest moons (Ganymede, Callisto and Titan), due to high pressure reached in their deep interior, the existence of high pressure ice phases capable of incorporating into their lattice large amounts of salt compounds, called salt-filled ices, may strongly affect the chemical differentiation processes leading to the formation of subsurface oceans. Similarly to the case of salty ices, light gas compounds, such as H2, CH4 and N2, may also be incorporated in filled-ice structures, and thus could be stored in the deep interior and sporadically released during the interior evolution. These icy moons likely formed from a complex mixture of ices, organics and silicate minerals, which subsequently evolves as their interior progressively warm up and chemically differentiate. Beyond large ice moons, similar processes may affect the thermo-chemical structure and evolution of water-rich exoplanets and their atmosphere composition. Storage and transport of salt and light gas compounds by filled-ice phases may have a major impact on the chemical evolution and hence the habitability of these ocean worlds.

The present PhD project is part of the ANR project “EXOTIC-ICES” (2024-2028), involving three laboratories in France (IMPMC, LPG, IPGP), dedicated to the characterization of the exotic properties of gas and ions filled ices under extreme conditions and their implications for water-rich planetary interiors. In this context, the goal of the PhD work is to determine under which planetary contexts, salt and gas filled-ice phases may exist and to characterize their impacts on the internal structure, dynamics and chemical evolution of large icy moons and extrasolar water-rich planets. This modeling work will rely on the experimental data and ab initio calculations provided by the project partners (IMPMC & IPGP in Paris) regarding the stability and properties of filled-ice phases. Using thermal convection codes and 1D parameterized models, we will quantify how much H2 and CH4 may be released by water-rock interactions and thermal degradation of organic compounds, stored in filled-ice phases and subsequently transported through the hydrosphere to the surface. These models will be used to predict the release rate of H2/CH4 through time and its impact on the atmosphere evolution of Titan and water-rich exoplanets, such as Trappist-1 planets. Salt-ice-water interactions will also be modeled throughout the evolution of these ice-rich interiors from accretion to present, and will be used to predict the partitioning of salt compounds between the ocean and the high-pressure ice mantle. Using the model results, synthetic density and electric conductivity profiles considering different salt contents and distributions will be constructed and will be used to predict the magnetic and gravimetric signatures of salt partitioning between the ocean and the high-pressure ice layer in preparation of the ESA Juice mission.

Requirements

Research Field

Astronomy

Education Level

PhD or equivalent

Research Field

Astronomy

Education Level

PhD or equivalent

Research Field

Astronomy

Education Level

PhD or equivalent

Languages

FRENCH

Level

Basic

Research Field

Astronomy

Years of Research Experience

None

Research Field

Astronomy » Astrophysics

Years of Research Experience

None

Research Field

Astronomy » Cosmology

Years of Research Experience

None

Additional Information

Website for additional job details

https://emploi.cnrs.fr/Offres/Doctorant/UMR6112-GABTOB-002/Default.aspx

Work Location(s)

Number of offers available

1

Company/Institute

Laboratoire de Planétologie et Géosciences

Country

France

City

NANTES

Geofield

Where to apply

Website

https://emploi.cnrs.fr/Candidat/Offre/UMR6112-GABTOB-002/Candidater.aspx

Contact

City

NANTES

Website

http://www.lpgn.fr

STATUS: EXPIRED