2-year PostDoc opportunity : Accurate and efficient geophysical potential field response on implicit structural geological models

Offer Description
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Objectives
The integration of multi-modal geological and geophysical data is an essential task to gain knowledge on subsurface heterogeneity and sustainably manage the associated resources (heat, H2 or CO2 storage capacity, mineral resources, groundwater, etc.). To this end, three-dimensional numerical representation and simulation have undergone significant development and now make it possible to solve joint inverse problems, see for instance (Moorkamp et al., 2016; Wellmann & Caumon, 2018). However, a compromise often needs to be made between the representational accuracy of geological features, the accuracy of the geophysical computation and the computational speed. For example, geological structural models are typically converted to gridded models in potential field inversions (Giraud, Caumon et al., 2024; Giraud, Lindsay & Jessell, 2021; Guillen et al., 2008; Wellmann et al., 2017; Zheglova, Lelièvre & Farquharson, 2018). This induces geometric approximations which may raise problems in the presence of sharp variations caused by geological faults and rugged topography. The goal of this postdoc is to improve the accuracy of potential field response computation on realistic and accurate rock unit geometries while keeping acceptable performance.
Several numerical and computational techniques will be tested and compared to assess and maximize the efficiency / accuracy ratio in practical inversion tasks. This will be addressed by testing different numerical schemes and parallel implementations, starting from an existing in-house CPU / GPU C++ code. These methods will be tested first on synthetic models for which analytical solutions exists, before considering more complex 3D geological models. After this, the successful candidate may extend the approach to other geophysical problems (e.g. electromagnetics) or consider advanced geometric-based inversion techniques combining multiple level sets geomodel updating and transdimensional techniques (Giraud, Ford et al., 2024; Herrero et al., 2023).
Context
The postdoctoral researcher will be based at Université de Lorraine and will work in a multidisciplinary environment with numerical geologists, geophysicists and mathematicians. The scientist will join the GeoRessources Laboratory in the RING team[1], a pluridisciplinary group of 12-15 researchers and graduate students, which has a broad academic and industrial collaboration network. She/he will collaborate closely with Prof. Guillaume Caumon and Dr. Ayoub Belhachmi (UL), Dr. Modeste Irakarama (Independent researcher based in the USA), Dr. Jeremie Giraud (University of Western Australia), and Dr. Frédéric Dubois (BRGM – French Geological survey). The successful candidate will join the network of researchers involved in the Digital Earth project[2] of the PEPR Sous-sol, Bien Commun.
The postdoctoral scholarship (2600 to 3500 EUR monthly depending on experience) includes full salary, social benefits (incl. 44 days of paid leave annually), and budget to attend national and international conferences. The goal of the postdoc is to produce, present and publish innovative methodologies and the associated open-source software. Particular attention will be put on the professional development of the successful candidate and on establishing connections both with industrial and academic partners.
Nancy is a UNESCO World Heritage city with a vibrant student life and a rich cultural agenda, only 90 minutes away from Paris, Luxembourg and Strasbourg.
Candidate profile
The ideal candidate holds a PhD in numerical geophysics or applied mathematics. Experience in computer programming is required. A background or a proven interest in geoscience is appreciated but not mandatory. She/he has strong scientific writing and communication skills. Proficiency in English is required; knowledge of French is desirable, but not necessary.
The contract is expected to start during Q1 of 2025, but may be shifted to Q2 or Q3 depending on the successful candidate’s availability.
How to apply
Application files must be sent to jobs@ring-team.org before Jan 5, 2025 and must include:
– A cover letter
– A CV, including list of publications and contact information for two or more referees
– The PhD thesis
– If available, the PhD review and defense reports.

Where to apply
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E-mail jobs@ring-team.org

Requirements
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Research Field Geosciences » Geology
Education Level PhD or equivalent
Research Field Geosciences » Other
Education Level PhD or equivalent
Research Field Mathematics » Applied mathematics
Education Level PhD or equivalent
Research Field Computer science » Programming
Education Level PhD or equivalent
Languages ENGLISH
Level Excellent

Additional Information
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Work Location(s)
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Number of offers available 1
Company/Institute RING, Ecole Nationale Supérieure de Géologie
Country France
State/Province Meurthe et Moselle
City VANDOEUVRE LES NANCY
Postal Code 54500
Street 2 RUE DU DOYEN ROUBAULT

Contact
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City Vandoeuvre-les-Nancy
Website
http://georessources.univ-lorraine.fr/fr
https://www.ring-team.org/jobs/work-with-us
Street Université de Lorraine – Faculté des sciences
Postal Code 54500