The Programs team ensures our external and internal research projects are delivered predictably, transparently, and in alignment with customer needs and internal priorities. Working closely with research leads, solutions architects, and commercial teams, the group provides the structure and clarity needed to turn scientific work into well-run projects.
As a Senior Technical Program Manager, you will manage a portfolio of complex scientific projects, contributing to consistent and predictable delivery. You will use your technical literacy to translate scientific objectives into clear plans, manage the flow of work across multiple research teams, and ensure that progress, risks, and decisions are visible to both customers and internal leadership. Alongside your own delivery responsibilities, you will work with the Programs group leadership to plan resources, follow established delivery discipline, and contribute to continuous improvement of team practices.
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Responsibilities
- For assigned programs, act as the primary point of contact for questions related to status, delivery commitments, and customer programs, ensuring clear and timely communication with internal leaders and external stakeholders as appropriate.
- Ensure all assigned internal and external research and delivery projects are well defined, with clear objectives, scope, milestones, success criteria, ownership, and governance, and that progress is reported in a consistent and appropriate manner to senior leadership.
- Ensure project risks, dependencies, and delivery issues are identified early, escalated appropriately, and actively managed so that corrective actions are taken in a timely manner.
- Contribute to forecasting and capacity-planning activities by providing accurate project plans, estimates, and risk assessments to the Director, Programs.
- Use established tools and systems for project tracking, resource management, and reporting, and ensure accurate and timely data entry for assigned programs.
- Support financial and accounting requirements by accurately tracking effort, time allocation, and project costs in coordination with finance and operations teams.
- Enforce scope management and change-control processes to prevent uncontrolled scope creep while enabling informed trade-offs where strategically necessary.
Must haves:
- Master’s degree in quantum computing, physics, computer science, or related field.
- 2+ years managing complex research programs with successful outcomes.
We value:
- PhD in quantum computing, physics, computer science, or related field.
- Experience working with or exposure to quantum technologies.
- Experience managing customer relationships, with a track record of delivering successful and complex projects.
- Strong stakeholder management skills and the ability to influence without formal authority.
- Excellent verbal, written, and presentation skills; able to communicate complex ideas clearly and persuasively.
- Strong organizational skills, with the ability to manage multiple priorities and stakeholders.
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What is in it for you?
Working alongside a highly talented team, with leading names in the quantum computing industry. We offer a highly competitive package, equity, 28 days of paid holiday (in addition to public holidays), a workplace pension, a positive approach to flexible working and enhanced parental and adoption benefits.
About Us:
Quantinuum is the world leader in quantum computing. The company’s quantum systems deliver the highest performance across all industry benchmarks. Quantinuum’s over 650 employees, including 400+ scientists and engineers, across the US, UK, Germany, and Japan, are driving the quantum computing revolution.
By uniting best-in-class software with high-fidelity hardware, our integrated full-stack approach is accelerating the path to practical quantum computing and scaling its impact across multiple industries.
By joining Quantinuum, you’ll be at the forefront of this transformative revolution, shaping the future of quantum computing, pushing the limits of technology, and making the impossible possible.
Visit our news pages to learn more about Quantinuum and our scientific breakthroughs and achievements: https://www.quantinuum.com/news
Quantinuum Intro Video: The Future of Quantum Computing
Please note that employment with us is subject to successfully passing our pre-employment screening checks. We are an inclusive equal opportunity employer. You will be considered without regard to age, race, creed, color, national origin, ancestry, marital status, affectional or sexual orientation, gender identity or expression, disability, nationality, sex, or veteran status.
TECHNICAL & MARKET ANALYSIS | Appended by Quantum.Jobs
The Senior Technical Program Manager role is a structural necessity within the quantum ecosystem, serving as the critical interface between fundamental scientific research and industrialized system delivery. As the sector transitions from laboratory-scale experiments to high-performance, full-stack quantum computers, the complexity of coordinating multidisciplinary teams across hardware, software, and systems engineering has become a primary bottleneck. This role type mitigates the risks associated with the high Technology Readiness Level (TRL) gap by implementing rigorous delivery disciplines that translate scientific breakthroughs into predictable milestones. By synchronizing external customer requirements with internal R&D cycles, these functions ensure that capital-intensive quantum projects maintain alignment with global market timelines and performance benchmarks. Ultimately, this role acts as a value-chain stabilizer, reducing the friction inherent in scaling experimental technologies toward commercial viability.
The quantum computing industry is currently navigating a pivotal shift from "quantum-ready" exploration to the "quantum-advantage" era, characterized by a move toward fault-tolerant systems and integrated hybrid workflows. Within this value chain, technical program management is positioned as a core enablement function that addresses significant macro constraints, specifically the fragmentation of vendor ecosystems and the extreme scarcity of talent capable of navigating both classical project management and quantum physics. As public funding cycles and private investments increasingly demand measurable progress, the ability to provide transparency and predictability in scientific delivery has become a top-tier industry priority.
Sector-wide observations indicate that the primary challenge for organizations like Quantinuum is the high degree of integration complexity. The transition from physical to logical qubits requires a seamless coupling of cryogenics, control electronics, and quantum error correction software. Without centralized technical oversight, these dependencies often lead to uncontrolled scope creep and iteration delays. Furthermore, as the market moves toward a projected value of over $100 billion by 2040, the industry must move beyond isolated prototypes toward modular, reproducible quantum processing units.
Publicly verifiable trends from organizations like the QED-C highlight that infrastructure dependencies and supply chain risks are increasingly gating the speed of innovation. Technical program managers facilitate the necessary cross-functional exposure to mitigate these risks, ensuring that hardware milestones are synchronized with software development kits and user-facing cloud platforms. This institutional-grade coordination is vital for maintaining investor confidence and accelerating the path to practical, industry-specific applications in chemistry, finance, and logistics.
Capability domains for this role type center on the intersection of scientific literacy, resource optimization, and strategic risk mitigation. In the quantum sector, these capabilities matter because they provide the structural leverage required to manage the high variance of experimental outcomes. Expertise in translating complex physical constraints into actionable engineering roadmaps allows for higher throughput in research cycles and improves the overall stability of the development pipeline. These interface points between research leads and commercial teams are essential for ensuring that technical decisions are made with full visibility into their impact on customer commitments and system-level performance. Mastering the nuances of quantum hardware architectures and their software abstractions enables the effective management of cross-functional coupling, which is the primary mechanism for reducing the exorbitant costs of long-cycle R&D.
Accelerates the progression of high-fidelity quantum systems toward commercial-grade technology readiness levels
Synchronizes multidisciplinary R\&D efforts to reduce iteration latency in the full-stack development cycle
Establishes standardized delivery protocols that bridge the gap between experimental research and industrial engineering
Mitigates systemic risks associated with the high-complexity dependencies of superconducting or trapped-ion architectures
Strengthens the quantum value chain by aligning internal scientific breakthroughs with external customer priorities
Optimizes resource allocation across complex portfolios to ensure high-priority quantum projects remain on schedule
Facilitates the integration of quantum hardware sub-systems with classical high-performance computing infrastructure
Enhances the transparency of technical decision-making for senior leadership and global investment stakeholders
Reduces the financial impact of scope creep by enforcing rigorous change-control processes in scientific workflows
Drives the continuous improvement of operational practices within specialized quantum research and development groups
Improves the predictability of milestone delivery for critical quantum error correction and logic gate benchmarks
Supports the global scaling of the quantum workforce through structured cross-functional knowledge transfer
Industry Tags: Quantum Computing Value Chain, Technical Program Management, Full-Stack Quantum Integration, Technology Readiness Level Progression, Quantum R&D Optimization, High-Performance Computing, Scientific Project Delivery, Quantum Ecosystem Enablement, Strategic Risk Management, Industrialized Quantum Hardware
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