PhD (f_m_x) - Numerical Modelling of radiation belts - Potsdam, Deutschland - Helmholtz-Zentrum Potsdam Deutsches GeoForschungsZentrum GFZ

Beschreibung

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PhD (f_m_x) - Numerical Modelling of radiation belts PhD (f_m_x) - Numerical Modelling of radiation beltsKopfbereichArbeitGeowissenschaftler/inPhD (f_m_x) - Numerical Modelling of radiation beltsHelmholtz-Zentrum Potsdam Deutsches GeoForschungsZentrum GFZVollzeitPotsdamab sofortbefristet für 36 MonateHeuteStellenbeschreibung

The Helmholtz Centre Potsdam - GFZ German Research Centre for Geosciences is the national centre for research into the geosphere.

With around 1,650 employees, we develop a sound understanding of systems and processes of the solid Earth as well as strategies and options for action to counter global change, understand natural hazards and sustainably secure energy and raw material requirements.

For section 2.

7 Space Physics and Space Weather (department 2: Geophysics), we are looking for a:


PhD (f_m_x) - Numerical Modelling of radiation belts
Reference Number 9362

You will be working on the MIPT projekt: Understanding the acceleration of ultra-relativistic electrons and its dependence on the plasma density

Section 2.7 Space Physics and Space Weather is working on understanding the dynamical evolution of the hazardous space radiation environment and developing tools for specification and prediction of the adverse effects of the space environment utilizing physics-based numerical models and data assimilation.

The MIPT project:

The overarching science objective of the research unit will be to better understand how the magnetosphere, ionosphere, plasmasphere, and thermosphere are coupled to each other.

The complexity of this system, which covers altitudes from tens to tens of thousands of km and over time scales from minutes to decades, requires an interdisciplinary team with experts in different domains, expertise in modeling and observations, as well as established collaborative ties to the international community.

Your responsibilities:
The successful candidate should have extensive experience in scientific programming


Job responsibilities will include:
Utilize existing data of measurements and codes to calculate Phase Space Density (PSD) as a function of adiabatic invariants
Investigate the effect of wave-particle interactions on the dynamic evolution of radiation belt electrons
Study the influence of low-energy plasma on the dynamics of relativistic and ultra-relativistic electrons
Develop scientific codes
Maintain data and code repositories
Develop visualizations
Develop various programming tools for scientific codes and data analysis
Document and test existing codes
Adopt scientific codes for different scientific problems
Write manuscripts that will be published in peer-reviewed journals
Collaborate within the MIPT Research Unit


Your qualifications:
Master/diploma in physics, mathematics, or related natural sciences
Proficiency in scientific programming using Python or MATLAB
Work experience with Unix operating systems
Knowledge about code architecture and design patterns
Knowledge of C++ is a plus
Experience with machine learning is a plus
Knowledge of space physics is preferred, but candidates with exceptional computing skills and no background in space physics will also be considered
Ability to work with large data sets
Ability to work within a team
Attention to detail and organizational skills
Excellent interpersonal and communication skills
Excellent English skills

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