[Doctorandos] Post-Doctoral / Research engineer position at University de Pau et des Pays de l’Adour (France)

Vie Dic 20 07:59:29 -03 2024

POST-DOCTORAL / RESEARCH ENGINEER POSITION AT UNIVERSITY DE PAU ET DES PAYS
DE L’ADOUR (FRANCE)

DURATION: 12 months.
  LOCATION: LFCR (Laboratoire des Fluides Complexes et leurs Réservoirs),
Université de Pau et des
  Pays de l’Adour (Pau, France).
  BEGINNING: During 2025. Before October 2025 is advisable.
  NET SALARY: From 2200 to 2600 Euros net per month (It depends on candidate
experience).
  DIPLOMA: It is desirable anyone holding a PhD in Electronic Engineering,
Geophysics, Physics or
  related fields, but an Electronic engineer without PhD could also be
accepted (no age limit).
  PROFILE: The candidate is expected to be able to implement instrumentation
for a system involving
  electronics and mechanics. Knowledge of programming in Python and signal
processing is
  desirable.
  LANGUAGE: English and/or French is recommended.
  APPLICATION TO: CV + Motivation letter to Federico Sanjuan (
_federico.sanjuan en univ-pau.fr_ ).
  DIRECTOR: Federico Sanjuan _https://fr.linkedin.com/in/federicosanjuan_

DESCRIPTION OF THE CANDIDATE POSITION:

The project focuses on monitoring changes in porosity and fracture
formation in materials
  using terahertz electromagnetic waves. The proposed method employs compact
and low-cost high-
  frequency modulated continuous wave (FMCW) radar systems (24, 60, 120 and
240 GHz), enabling
  the tracking of changes in materials caused by injecting fluids, gas or
temperature changes.
  Specifically, measuring porosity and fractures in rocks with terahertz
measurement systems,
  which are expensive (> €40k) and non-compact, has only been validated
statically (no monitoring)
  by F. Sanjuan/1,2/. The objective is to replicate these static results
with the low cost FMCW radars,
  and also make the monitoring.

  The candidate will need to set up the radar system. Essentially, he will
need to connect the
  radar to a Raspberry Pi to acquire data and process the signal using
Python as the programming
  language. The radar provides the signal information via USB, so no HF
electronics development is
  required. Additionally, the radar will be mounted on an X, Y, Z Cartesian
system controlled by the
  Raspberry Pi to move the radar and generate an image. So, the candidate
will need to handle the
  programming and design some mechanical components for the setup. Finally,
the system, which will
  operate with various frequency radars, will be applied to two industrial
applications related to the
  energy and materials sectors. This will yield both scientific and
industrial results to value the work
  done by the candidate. Do not hesitate to contact F. Sanjuan for more
information.

  /1. Sanjuan, F., Fauquet, F., Fasentieux, B., Mounaix, P., & Guillet, J.
P. (2023). Feasibility of Using a 300 GHz Radar to/
  /Detect Fractures and Lithological Changes in Rocks. Remote Sensing,
15(10), 2605./
  /2. Patent filed: Terahertz imaging of estimated porosity. N° DU DÉPÔT
: IDDN1 .FR2 .0013 .2400204 .0005 .S6 .P7/
  /.20248 .0009 .1000010 / DATE DU DÉPÔT : 13/06/2024/
  --------------------------------------------------------------   Geof.
Mercedes Gil    
Secretaria de Posgrado       

   Facultad de Ciencias Astronómicas y Geofísicas
Universidad Nacional de La Plata     TELéFONO: (0221) - 423 - 6593 int.
1050
http://www.fcaglp.unlp.edu.ar/posgrados[1]
--------------------------------------------------------------

Links:
------
[1] http://www.fcaglp.unlp.edu.ar/area-docente/posgrado/posgrado
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