We are seeking a Senior Manager, Technical Solutions who will drive the company’s pre-sales technical strategy for quantum computing solutions with clients, leading multiple project teams and overseeing large-scale, complex projects. This role will shape the future vision of the company’s quantum offerings, working with senior leadership and key clients to align pre-sales technical initiatives with business objectives. Responsibilities: Execute...
JobTarget
Greater London
Software Engineer (Quantum Platform and Tools)
Advance practical quantum computing through robust, production‑grade software. Haiqu is building a world-leading software platform that enables previously impossible applications on modern quantum processors. Our full-stack approach has shown industry-first results in pilots with leading quantum early adopters. Backed by top investors, we offer a unique opportunity to join a fast-growing team and shape the development of the Quantum Computing...
Workable
Greater London
Postdoctoral Research Assistant in Modelling of Quantum Computing Control Systems
We are seeking a motivated and Talented experimentalist for a full-time Postdoctoral Research Assistant in Modelling of Quantum Computing Control Systems within Professor Ares’ and Professor O’Brien’s research groups at the Department of Engineering Science (Central Oxford). The post is fixed term for two years and is funded by the EPSRC. The development of large-scale quantum computers will require a...
University of Oxford
Oxfordshire
Postdoctoral Research Assistant in Modelling of Quantum Computing Control Systems
We are seeking a motivated and Talented experimentalist for a full-time Postdoctoral Research Assistant in Modelling of Quantum Computing Control Systems within Professor Ares’ and Professor O’Brien’s research groups at the Department of Engineering Science (Central Oxford). The post is fixed term for two years and is funded by the EPSRC.
University of Oxford, Department of Engineering Science
Oxfordshire
Executive Assistant - Oxford
The future is quantum. Oxford Ionics is at the forefront of pioneering quantum computing, delivering world-leading innovation to create the most powerful, accurate, and reliable quantum systems. Quantum computing offers a radically new way of building computers that harnesses the power of quantum physics to outperform conventional supercomputers exponentially. Using our unique trapped-ion technology, we are leading the race to...
Oxford Ionics
Oxford
Senior Optical Scientist - Oxford
The future is quantum. Oxford Ionics is at the forefront of pioneering quantum computing, delivering world-leading innovation to create the most powerful, accurate, and reliable quantum systems. Quantum computing offers a radically new way of building computers that harnesses the power of quantum physics to outperform conventional supercomputers exponentially. Using our unique trapped-ion technology, we are leading the race to...
Quantum computing has long been described as the next frontier in technology. Unlike classical computers, which process information in binary (0s and 1s), quantum computers use quantum bits—or qubits—that can exist in multiple states simultaneously. This allows them to perform certain calculations exponentially faster than today’s most powerful supercomputers.
For now, quantum computing is still in its early stages. But progress is accelerating. Tech giants such as IBM, Google, and Microsoft are racing to build scalable quantum systems. Start-ups across the UK, including Oxford Quantum Circuits and Cambridge Quantum, are developing applications that could transform industries from finance to pharmaceuticals.
The UK government has invested heavily in quantum technologies, with the National Quantum Strategy allocating billions to research and commercialisation. Universities are training a new generation of quantum scientists and engineers. Demand for quantum skills is already outpacing supply.
Yet the real transformation is still to come. As quantum computing converges with AI, cyber security, biotechnology, and materials science, entirely new jobs will emerge—roles that don’t exist today but will be essential tomorrow. Many of the most important quantum computing jobs of the next two decades don’t exist yet.
This article explores why new careers will appear, the future jobs likely to emerge, how today’s roles will evolve, why the UK is well positioned, and how professionals can prepare now.
The UK's quantum computing sector has emerged as one of Europe's most intellectually challenging and strategically crucial technology markets, with roles spanning from junior quantum software engineers to principal quantum scientists and heads of quantum research. With quantum computing positions commanding salaries from £40,000 for graduate quantum engineers to £180,000+ for senior principal scientists, understanding when organisations actively recruit can dramatically accelerate your career progression in this revolutionary and rapidly evolving field.
Unlike traditional computing roles, quantum computing hiring follows distinct patterns influenced by quantum research cycles, government funding schedules, and quantum hardware development timelines. The sector's unique combination of advanced mathematics, quantum physics, and computational complexity creates predictable hiring windows that strategic professionals can leverage to advance their careers in building tomorrow's quantum systems.
This comprehensive guide explores the optimal timing for quantum computing job applications in the UK, examining how national quantum strategies, academic research cycles, and quantum technology initiatives influence recruitment patterns, and why strategic timing can determine whether you join a groundbreaking quantum research team or miss the opportunity to develop the next generation of quantum algorithms and systems.
The quantum computing industry represents one of the most strategically important and rapidly evolving sectors in modern technology, with quantum professionals playing crucial roles in advancing scientific understanding, developing breakthrough technologies, and maintaining national technological competitiveness. As quantum computing transitions from academic research to commercial applications and national security implementations, pre-employment screening processes have become increasingly sophisticated and comprehensive.
Quantum computing careers span diverse environments from university research laboratories and government quantum initiatives to commercial quantum startups and established technology companies developing quantum cloud services. Each sector brings unique screening requirements reflecting the strategic sensitivity of quantum technologies, the international nature of quantum research collaboration, and the critical importance of maintaining both research integrity and intellectual property protection.
Understanding quantum computing pre-employment screening helps professionals navigate career opportunities effectively whilst enabling employers to identify candidates capable of contributing to quantum innovation whilst maintaining appropriate security standards, research ethics, and technical excellence. The screening processes examine not only technical quantum competencies but also research integrity, security clearance eligibility, and ability to work effectively across the interdisciplinary quantum ecosystem.
This comprehensive guide examines the full spectrum of pre-employment screening practices across quantum computing careers, from basic right-to-work verification through enhanced security clearance processes, technical competency assessment, and industry-specific requirements. Whether pursuing opportunities in quantum algorithm development, quantum hardware engineering, quantum software development, or quantum research leadership, understanding these screening processes enables quantum professionals to prepare effectively and advance their careers successfully.
The quantum computing sector's unique combination of cutting-edge research, commercial potential, and strategic importance creates screening requirements that reflect both the technical demands of quantum innovation and the security considerations of strategically sensitive technologies. These processes ultimately support the continued advancement of quantum computing by ensuring high professional standards and technical competence necessary for breakthrough quantum innovation and responsible quantum technology development.
If you’re serious about a career in quantum computing, Oxford Ionics should be firmly on your shortlist. Born out of Oxford’s world-class trapped-ion research, the company has built a reputation for high-performance, engineering-led quantum systems and headline-grabbing partnerships. In this guide, we’ll unpack their technology, culture, opportunities, and how to position yourself as a strong applicant—so you can decide if Oxford Ionics is the right next step for you.
The United Kingdom stands at the forefront of a quantum computing revolution that's fundamentally transforming how we approach computational problems, from drug discovery simulations in Oxford to financial risk modelling in London's quantum labs. Britain's position as a global leader in quantum research and development has created an unprecedented demand for skilled quantum computing professionals that dramatically exceeds the current talent supply, making this the defining moment for careers in quantum technology.
If you've been seeking a career at the absolute cutting edge of computational science or looking to position yourself in what many consider the most transformative technology of the 21st century, quantum computing represents an extraordinary opportunity. The convergence of massive government investment, breakthrough hardware achievements, quantum algorithm development, and enterprise adoption readiness has created perfect conditions for quantum computing career success.
Quantum roles pop up across scaleups, labs, hyperscalers, consultancies, telco, defence and pharma—often hidden in ATS portals or duplicated across boards. The fastest way to stay on top of them isn’t more scrolling; it’s automation. With keyword-rich alerts, RSS feeds and a reusable ChatGPT workflow, you’ll bring relevant roles to you, triage them in minutes, and tailor sharp applications without burning your evenings.
This copy-paste playbook is for www.quantumcomputingjobs.co.uk readers. It’s UK-centric, practical, and designed to save you hours each week.
What You’ll Have Working In 30 Minutes
A role & keyword map spanning Quantum Algorithms, Software/SDKs, Error Correction & Compilers, Control & Experiment, Hardware Platforms, Cryogenics/Microwave, Optics/Photonics, Quantum Comms (QKD/QRNG), PQC, and Quantum-ML/Chemistry.
Shareable Boolean searches you can paste into Google & job boards to cut noise.
Always-on alerts & RSS feeds delivering fresh UK roles to your inbox/reader.
A ChatGPT “Quantum Job Scout” prompt that deduplicates, scores fit, and outputs tailored actions.
A lightweight pipeline tracker so deadlines and follow-ups never slip.
Find the perfect job? Subscribe to job alerts to stay informed about new opportunities.
Get QUANTUM Job Alerts Directly to Your Inbox! Specify your desired role, and we'll send you email alerts whenever new QUANTUM jobs matching your criteria are posted.
🍪 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.
