Measurement Scientist Student Placement - Year in Industry 2025-2026

Oxford Instruments Plc
Oxford
1 month ago
Applications closed

Related Jobs

View all jobs

Photonics Engineer - 249

Photonics Engineer - 249

Photonics Engineer - 249

Lead Photonics Scientist

Associate Quantum Engineer

Electronics Design Engineer

At Oxford Instruments, we enable the world’s leading industrial companies and scientific research communities to image, analyse and manipulate materials down to the atomic and molecular level.Our customers use our NanoScience ultra-low temperature and high magnetic field environments to go beyond what was once thought possible, whether that’s creating Nobel Prize winning materials or developing quantum computers to solve the world’s most complex problems.

 

This is a hands-on role, that will see youperforming low- temperature and high magnetic-field measurements, using our world-leading magnet and cryogenic systems.  These measurements will be undertaken using a range of well-known but specialist electronic instruments.

 

 

The opportunity

 

In this placement opportunity, you can expect to conduct experiments within our Applications laboratory, program instruments to take automated measurements using python, analyse and communicate the results.  As part of the role, you will participate in supporting new product design, as well as validating our products. You can expect to work as part of a team of measurement scientists, but also with the wider business such as New Product Introduction, Test and Software Development teams.  

 

 

About You

 

This placement, starting in summer 2025, would suit an individual that is taking a relevant degree subject such as physics, physical sciences or material science and requires an industrial placement for their third year.  It would be ideal if you had knowledge of programming with Python, however experience in another language such as MATLAB, or Igor Pro would also be considered.  Experience of analysing data and practical laboratory experience is essential, along with the ability to problem solve, take ownership of your own work and work well in a team.

 

Please note that this work is in an area close to a high magnetic field and may not be suitable to all.

 

 

Benefits

 

In addition to a competitive starting salary, Oxford Instruments offers flexible working hours and a half-day on Fridays. We also offer 25 days annual leave, private healthcare, a share incentive plan, a defined contribution Group Personal Pension Plan, and a flexible benefits package that you can tailor to your own requirements. We also invest in our talented employees by supporting them in their ongoing career and development so that they reach their full potential. We care and work hard to provide a workplace where you can grow and learn. #LI-JR1

Get the latest insights and jobs direct. Sign up for our newsletter.

By subscribing you agree to our privacy policy and terms of service.

Industry Insights

Discover insightful articles, industry insights, expert tips, and curated resources.

Jobs

Negotiating Your Quantum Computing Job Offer: Equity, Bonuses & Perks Explained

How to Secure a Compensation Package That Reflects the Cutting-Edge Nature of Quantum Tech in the UK Introduction Quantum computing stands at the forefront of technological revolution—holding the potential to transform fields ranging from cryptography and drug discovery to climate modelling and finance. As a mid‑senior professional in this evolving domain, your expertise could drive breakthrough algorithms, optimise quantum hardware performance, or steer complex research initiatives. Given the unprecedented possibilities this technology unlocks, top-tier talent is in high demand, and employers often craft job offers that extend well beyond a conventional salary. Yet, many quantum specialists focus primarily on base pay when evaluating a new role. While salary certainly matters, it’s only one component of a multi-faceted compensation package that may include equity, performance-based bonuses, and perks designed for the unique demands of quantum research. By understanding—and negotiating—these additional components, you can position yourself to reap both immediate and long-term rewards that accurately reflect your impact in this cutting-edge sector. This guide unpacks every critical aspect of negotiating a quantum computing job offer. From exploring equity schemes that tie your success to that of the company, to leveraging milestone-driven bonuses that recognise breakthroughs in quantum algorithms or hardware, you’ll learn how to confidently pursue an offer that acknowledges your high-value contributions and sets you on a trajectory for success in the UK’s rapidly maturing quantum ecosystem.

Jobs

Quantum Computing Jobs in the Public Sector: Transforming Government, Defence, and Research

Quantum computing represents one of the most revolutionary technological frontiers of the 21st century, promising computational capabilities far beyond the reach of classical computers. By leveraging quantum mechanical phenomena such as superposition and entanglement, quantum computers can solve certain problems—like complex optimisation tasks or molecular simulations—exponentially faster. This paradigm shift is not only attracting attention from tech giants and research universities but also from the public sector, where breakthroughs can profoundly impact everything from national security to public healthcare and beyond. In the United Kingdom, government bodies, research councils, and defence agencies have been proactive in exploring quantum computing’s potential. The UK National Quantum Technologies Programme, significant investments from UK Research and Innovation (UKRI), and leading institutions like the National Cyber Security Centre (NCSC) are all advancing quantum technologies. As a result, quantum computing jobs within the public sector are on the rise, offering a unique blend of intellectual challenge, societal impact, and long-term career stability. In this comprehensive guide, we will delve into why quantum computing is crucial for government initiatives, explore the key public sector organisations driving adoption, outline the typical job roles, discuss the skills and qualifications needed, and provide practical advice on finding and securing a quantum computing position in the UK public sector. By the end, you’ll have a clear understanding of how you can leverage your expertise in quantum computing to shape the future of public services—contributing to national security, healthcare, climate modelling, and more.

Jobs

Contract vs Permanent Quantum Computing Jobs: Which Pays Better in 2025?

Quantum computing, once purely theoretical, has become one of the most dynamic fields in modern technology. Innovations in quantum hardware, quantum algorithms, and quantum-safe cryptography hold the potential to transform everything from drug discovery and supply chain optimisation to secure communications and advanced AI. Across the United Kingdom, start-ups, research labs, and established tech giants are vying for quantum talent, driving up both day‑rates for contractors and salary packages for permanent staff. For professionals with quantum expertise—whether that is in hardware engineering, algorithm design, quantum error correction, or quantum software development—the question arises: Is it better to work as a day‑rate contractor, accept a fixed-term contract (FTC), or pursue a permanent position? Which path offers the most competitive pay by 2025, and which one aligns with long-term career aspirations? This guide explores the unique opportunities, challenges, and earning potential across these three types of quantum computing employment. By examining sample take‑home pay scenarios and broader considerations (like job security, IR35, and career development), you will be better equipped to decide which pathway leads to success in this burgeoning industry.

🍪 We use cookies to enhance your browsing experience on our website. By continuing to use this site, you consent to the use of cookies as described in our Cookie Policy. You can review our Cookie Policy for more information.