Sr. Quantum Researcher (Algorithms)
12 Oct 2025
Verified by Turrior
Content + Source + Freshness • 12 Dec 2025 • 95% confidence
90 / 100
Offer value
Exceptional offer due to the highly specialized nature of quantum research with significant growth prospects in a burgeoning field.
- Unique opportunity to work in quantum computing with top organizations.
- Significant impact potential on technology advancement.
- High growth potential in a rapidly evolving field.
- Requires in-depth knowledge and technical expertise.
Pros
- High demand for quantum talent with few experts available.
- Collaborate on groundbreaking technology with significant impact.
- Potential for academic and practical applications in research.
Cons
- Intense focus on specific technical areas may root limited opportunities for generalists.
- Research and development timelines may introduce uncertainty in project completion.
- Expectations for high-level technical output from the outset.
Who it's for
Senior / Expert • Hybrid or on-site with research collaboration.
Good fit
- Experienced quantum researchers or related experts.
- PhDs with a focus in advanced algorithm research.
- Individuals passionate about pioneering quantum technology.
Not recommended for
- Those without a graduate degree in related fields.
- Candidates not adaptable to advanced research demands.
- Professionals uncomfortable with ambiguity in research timelines.
Motivation fit
Desire to contribute to innovative quantum solutions.Interest in academic collaborations and proofs of concept.Motivated by the challenge of advanced computational problems.
Key skills
Quantum computing knowledgeAlgorithm developmentComplex problem-solvingError mitigation techniques
Score: 90/100 AI verified analysis
About the job
As a quantum algorithm researcher, your main role will be to develop algorithmic and error-reduction tools to help our partners and customers achieve quantum advantage for their applications. You will develop Qedma’s error reduction (mitigation and correction) methods and apply them to different use cases by both optimizing and developing new algorithms and by optimizing the error reduction methods themselves for the specific applications at hand.
- Developing new error reduction methods (mitigation and correction) for quantum algorithms.
- Optimizing error reduction methods for different algorithms.
- Developing new quantum algorithms to enhance performance on real quantum hardware with error mitigation.
- Conducting research on applications of quantum computing with Qedma’s partners, including implementing and running proof-of-concept demonstrations of these applications on real quantum hardware.
- PhD in quantum computing, physics, computer science, mathematics, or a related field; or MSc with relevant experience.
- Strong programming skills, preferably in Python.
- Expertise in one or more of the following fields is a strong plus: quantum algorithms research, materials science, quantum chemistry, theoretical condensed matter physics, classical optimization problems, theoretical atomic molecular and optical physics, quantum information theory, machine learning, and AI.
- Excellent technical and scientific communication skills in English, both verbal and written.
