POSTDOCTORAL RESEARCHER IN SPACE PLASMA PHYSICS, MACHINE LEARNING, AND COMPUTING

at  KU Leuven

Leuven, Vlaanderen, Belgium -

Start DateExpiry DateSalaryPosted OnExperienceSkillsTelecommuteSponsor Visa
Immediate28 Nov, 2024Not Specified30 Aug, 2024N/AGood communication skillsNoNo
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Description:

POSTDOCTORAL RESEARCHER IN SPACE PLASMA PHYSICS, MACHINE LEARNING, AND COMPUTING

(ref. BAP-2024-592)
Laatst aangepast: 26/08/24
The Centre for mathematical Plasma Astrophysics uses mathematics, simulations and observations to understand how plasma works. Expertise in both kinetic and fluid (magnetohydrodynamic) plasma descriptions is available and applied to solar, heliospheric and astrophysical settings.
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Responsibilities
One of the most intriguing open questions in astrophysics is understanding why the solar wind is so hot. The surface of the Sun is approximately 6500K, yet as we move into the Sun’s atmosphere, the temperature astonishingly rises to millions of degrees, defying intuitive expectations for an expanding gas moving away from its source of heating. To unravel this mystery, two groundbreaking space missions have been launched: Solar Orbiter and Parker Solar Probe. These missions are traveling closer to the Sun than any man-made object ever has, offering an unprecedented wealth of data. The HELIOSKILL project aims to leverage this mission data, in conjunction with fully kinetic, high-resolution simulations, to solve the holy grail of solar wind research: deriving the equation of state for the expanding solar wind. This equation will illuminate how the solar wind’s temperature evolves with other measured parameters. The approach involves applying machine learning tools designed to extract physical laws from data (either observations or simulations), potentially leading to groundbreaking discoveries in the thermodynamics of the solar wind. We are seeking highly motivated Postdoctoral Researcher(s) to participate in this FWO Project Heliophysics simulations and artificial intelligence (Helioskill).
The ideal candidate preferably has experience with kinetic plasma simulations and/or data analysis from ongoing space plasma missions. This position offers a unique opportunity to contribute to a project at the frontier of astrophysical research.

Responsibilities are:

  • Analyze and interpret data from Solar Orbiter and Parker Solar Probe missions.
  • Develop and apply machine learning techniques to derive the equation of state for the solar wind.
  • Perform high-resolution particle-in-cell simulations and integrate them with observational data to enhance understanding of solar wind thermodynamics.
  • Collaborate with a multidisciplinary team of researchers and contribute to research dissemination through publications and conferences.

Profile

  • Ph.D. in Space Physics, Astrophysics, Applied Mathematics, Computer Science, or a related field.
  • Expertise in at least two of the following areas: space physics, machine learning, and high-performance computing.
  • Strong programming skills and experience with data analysis and simulation.
  • Proven ability to work independently and as part of a team.
  • A track record of research excellence, evidenced by publications in peer-reviewed journals.

Offer
The appointment is for 2 years with a possibility of extending for one more year. This is a rare opportunity to work on a high-impact project that seeks to answer one of the most significant questions in space plasmas. You will be part of CmPA (Center of mathematical Plasma Astrophysics) at KU Leuven, a leading research institution, collaborating with experts in a dynamic and supportive environment, and contributing to cutting-edge research with the potential for significant scientific breakthroughs.
Interested?
For more information please contact Prof. dr. Rony Keppens, tel.: +32 16 32 70 01, mail: rony.keppens@kuleuven.be or Mr. George Miloshevich, tel.: +32 16 32 14 85, mail: george.miloshevich@kuleuven.be.
You can apply for this job no later than October 31, 2024 via the online application tool
KU Leuven strives for an inclusive, respectful and socially safe environment. We embrace diversity among individuals and groups as an asset. Open dialogue and differences in perspective are essential for an ambitious research and educational environment. In our commitment to equal opportunity, we recognize the consequences of historical inequalities. We do not accept any form of discrimination based on, but not limited to, gender identity and expression, sexual orientation, age, ethnic or national background, skin colour, religious and philosophical diversity, neurodivergence, employment disability, health, or socioeconomic status. For questions about accessibility or support offered, we are happy to assist you at this email address.
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Responsibilities:

  • Analyze and interpret data from Solar Orbiter and Parker Solar Probe missions.
  • Develop and apply machine learning techniques to derive the equation of state for the solar wind.
  • Perform high-resolution particle-in-cell simulations and integrate them with observational data to enhance understanding of solar wind thermodynamics.
  • Collaborate with a multidisciplinary team of researchers and contribute to research dissemination through publications and conferences


REQUIREMENT SUMMARY

Min:N/AMax:5.0 year(s)

Information Technology/IT

IT Software - Other

Software Engineering

Graduate

Proficient

1

Leuven, Belgium