Find a job 
Featured Companies 
Featured Universities 
For Companies At a Glance
- Tasks: Develop optimisation tools for tokamak divertor design and integrate them into existing workflows.
- Company: Join Tokamak Energy, a leader in the UK fusion industry, committed to nurturing talent.
- Benefits: Enjoy 6 days of holiday, plus bank holidays, and gain valuable industry experience.
- Why this job: Contribute to cutting-edge fusion technology while collaborating with experts in a dynamic environment.
- Qualifications: Studying physics, mathematics, or engineering; programming skills in Python/Julia preferred.
- Other info: This is a temporary internship with potential for future employment opportunities.
The FOSTER programme's enhanced internship scheme provides students an opportunity to gain work experience within the growing UK fusion industry. The FOSTER programme is looking to build the talent pipeline into the industry. Over the past three years, 83 students have participated in placements in 20 host organisations around the UK, with many receiving offers of employment after their graduation.
Tokamak Energy are fully committed to building talent within the fusion industry and excited to offer internship opportunities across our business. The placement will give you valuable experience working within a commercial fusion company alongside talented experts within the field, building both your technical and business knowledge.
During this project you will develop computational tools to be used in the design of the heat exhaust management system, also known as the divertor, in the next generation of tokamak devices. The power loading onto the divertor is influenced by both the geometry of the divertor surfaces themselves, as well as the geometry of the magnetic fields in the divertor region. You will develop tools to optimise these geometries using adjoint method-based optimisation techniques, enabling the optimisation cost function gradient to be efficiently computed. By developing such tools, you will contribute directly towards the integrated design of future tokamak devices, and in the process interface with a diverse range of experts.
In this role, you will:
- Develop optimisation tools for use in the design of tokamak divertor
- Integrate such tools into existing integrated modelling workflow
- Work closely with experts from a variety of technical disciplines
- Present your work to your colleagues and peers
Requirements:
- Studying a relevant degree (Bachelor's/Master's) in physics, mathematics or engineering
- Knowledge of electromagnetism
- Ideally some knowledge of numerical optimisation techniques
- Comfortable with programming in the Python and/or Julia programming language
- Familiar with version control using GitHub/GitLab
- A strong mathematical aptitude
- Motivated and enthusiastic with the ability to work independently
- Good communication skills with the ability to work collaboratively with team members
- Good planning and organisation skills
- Decision-making, problem-solving, planning and organising
Benefits:
- 6 days holiday (plus bank holidays)
- Cohort experience
- This is a fantastic opportunity to get a closer look at what we do, the work environment, and the exciting roles we have available
Seniority level: Internship
Employment type: Temporary
Job function: Science
Industries: Technology, Information and Internet
FIP Summer Placement - Divertor Geometry Optimisation employer: Tokamak Energy
Contact Detail:
Tokamak Energy Recruiting Team
StudySmarter Expert Advice 🤫
We think this is how you could land FIP Summer Placement - Divertor Geometry Optimisation
✨Tip Number 1
Familiarise yourself with the latest advancements in fusion technology and tokamak devices. This will not only help you understand the context of your work but also impress your interviewers with your knowledge and enthusiasm for the field.
✨Tip Number 2
Network with professionals in the fusion industry, especially those who have experience with divertor geometry optimisation. Attend relevant conferences or webinars to make connections and gain insights that could be beneficial during your placement.
✨Tip Number 3
Brush up on your programming skills, particularly in Python and Julia. Consider working on small projects or contributing to open-source projects on GitHub to demonstrate your coding abilities and familiarity with version control.
✨Tip Number 4
Prepare to discuss your problem-solving approach and how you would tackle challenges related to optimisation techniques. Being able to articulate your thought process will showcase your analytical skills and readiness for the role.
We think you need these skills to ace FIP Summer Placement - Divertor Geometry Optimisation
Some tips for your application 🫡
Tailor Your CV: Make sure your CV highlights relevant skills and experiences that align with the requirements of the FIP Summer Placement. Emphasise your knowledge in physics, mathematics, or engineering, and any programming experience you have, particularly in Python or Julia.
Craft a Compelling Cover Letter: Write a cover letter that showcases your enthusiasm for the fusion industry and the specific role. Mention your motivation to work on divertor geometry optimisation and how your background makes you a suitable candidate for this internship.
Showcase Relevant Projects: If you've worked on any projects related to numerical optimisation techniques or electromagnetism, be sure to include these in your application. Describe your contributions and the outcomes to demonstrate your practical experience.
Proofread Your Application: Before submitting, carefully proofread your CV and cover letter for any spelling or grammatical errors. A polished application reflects your attention to detail and professionalism, which are crucial in a technical field.
How to prepare for a job interview at Tokamak Energy
✨Showcase Your Technical Skills
Make sure to highlight your knowledge of electromagnetism and numerical optimisation techniques during the interview. Be prepared to discuss any relevant projects or coursework that demonstrate your programming skills in Python or Julia.
✨Demonstrate Problem-Solving Abilities
Since the role involves developing optimisation tools, be ready to share examples of how you've approached complex problems in the past. Discuss your decision-making process and how you arrived at effective solutions.
✨Communicate Clearly and Collaboratively
Good communication is key in this role, especially when working with experts from various disciplines. Practice explaining your ideas clearly and concisely, and be open to feedback during the interview.
✨Prepare Questions About the Role
Show your enthusiasm for the position by preparing thoughtful questions about the internship and the company. This demonstrates your interest in the work and helps you assess if it's the right fit for you.
