Senior Scientist in Yarnton

Senior Scientist in Yarnton

Yarnton Full-Time 70000 - 90000 £ / year (est.) No working from home possible
First Light Fusion

At a Glance

  • Tasks: Join our Physics Assurance team to develop cutting-edge models in high-energy-density physics.
  • Company: Innovative research institution focused on inertial fusion energy.
  • Benefits: Competitive salary, collaborative environment, and opportunities for professional growth.
  • Other info: Collaborate with diverse teams and contribute to groundbreaking research projects.
  • Why this job: Make a real impact in the exciting field of plasma physics and advanced simulations.
  • Qualifications: PhD in STEM or equivalent experience, strong programming skills, and a passion for theoretical physics.

The predicted salary is between 70000 - 90000 £ per year.

A skilled, enthusiastic and experienced scientist who is interested in theory, simulation and modelling techniques related to high-energy-density physics to join our Physics Assurance and Validation team.

You will have a developed appreciation and practical skills in the theoretical and simulation basis of the plasma physics related to inertial fusion energy (IFE) systems, particularly relating to hot electron generation and propagation during intense laser-matter interaction and the equation of state, transport and relaxation properties of dense, interacting systems.

You will be a confident user of multi-physics codes to examine and understand integrated problems, have a working appreciation of verification, validation and cross-code comparison, and have experience running a variety of simulation codes for generating the data needed to provide assurance for First Light Fusion’s numerical modelling capabilities.

You will also be aware of the role of modern AI and machine learning techniques in code acceleration, nonlinear regression problems and model uncertainty quantification.

  • Role responsibilities
  • Understanding, reproducing and developing models of constitutive physics at the cutting edge of IFE research.
  • Carry out simulations and modelling to understand the impact of your work on systems of relevance, e. g., in-silico target design and experimental design and analysis.
  • Enhance capability and assurance of our tools by implementing and designing new tests, modules and applications.
  • Be prepared to work with colleagues across different teams on projects outside of your immediate experience and comfort zone.
  • Provide technical input to colleagues in the application and interpretation of constitutive models and associated applied theory.
  • Take ownership of defined technical tasks or work packages, delivering high-quality work to agreed timelines.
  • Communicate and record your work in technical meetings, presentations, and written reports, occasionally including conference talks, posters, proceedings, and peer reviewed journal publications.
  • Contribute to collaborations with external partners, academic groups, and research institutions where relevant.

Requirements (essential)

  • Ph D in a STEM subject, or demonstrated equivalent industry experience, with postgraduate-level experience.
  • General, broad knowledge of the challenges of high-energy-density physics and IFE.
  • Strong background in theoretical physics, applied mathematics, and computational physics.
  • Significant experience with scientific programming, preferably in python, modern Fortran and C++.
  • Strong communication and interpersonal skills with experience in presenting at international conferences/workshops.
  • Ability to collaborate effectively with a diverse team of scientists and engineers, and across industry and academia.

Requirements (desirable)

  • Experience with theory and modelling of laser-matter interaction and hot electron generation mechanisms relevant to intense, short-pulse laser systems.
  • Familiarity with simulation using multi-physics codes, molecular dynamics, density functional theory, charged-particle transport, Monte Carlo techniques, etc.
  • Familiarity with machine learning techniques for acceleration or numerical implementation and model surrogacy, and techniques for statistical quantification of model impact and uncertainty quantification.
  • Well-developed understanding and appreciation of software engineering best practice, including version control and test-driven development philosophy.
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Senior Scientist in Yarnton employer: First Light Fusion

At First Light Fusion, we pride ourselves on being an exceptional employer that fosters a collaborative and innovative work culture. Our commitment to employee growth is evident through opportunities for professional development and engagement in cutting-edge research within the high-energy-density physics field. Located in a vibrant area, we offer a dynamic environment where scientists can thrive, contribute to meaningful projects, and be part of a team dedicated to advancing the future of inertial fusion energy.

First Light Fusion

Contact Details:

First Light Fusion Recruitment Team

We think you need these skills to ace Senior Scientist in Yarnton

Theoretical Physics
Simulation and Modelling Techniques
High-Energy-Density Physics
Inertial Fusion Energy (IFE)
Multi-Physics Codes
Verification and Validation
Scientific Programming in Python