IQM is a global leader in designing, building, and selling superconducting quantum computers. IQM provides both on-premises full-stack quantum computers and a cloud platform to access its computers anywhere in the world. IQM customers include the leading high-performance computing centers, research labs, universities and enterprises which have full access to IQM's software and hardware. IQM has over 300 employees with offices in Finland, Germany, France, Spain, Poland, Singapore and the US.
(www.meetiqm.com)
Our facilities are the foundation that enables IQM’s quantum computers to be built, tested, and operated reliably. As a Facility Technician, you help ensure that our laboratories and production environments remain safe, functional, and ready for mission-critical work. Your work supports advanced infrastructure such as cleanrooms, cryogenic halls, process cooling, ventilation systems, and building automation. By maintaining and improving these systems, you help keep our operations running smoothly and our production reliable every day.
What will I be doing?
- Perform preventive maintenance tasks for facility systems, tools, and utilities
- Carry out small repairs and general maintenance tasks across laboratory and production areas
- Perform regular equipment checks and monitor facility systems
- Record maintenance activities and inspections in internal systems and checklists
- Support risk assessments and help develop safety procedures and instructions
- Assist in renovation and facility improvement projects
- Prepare utilities and infrastructure for new equipment installations and relocations
- Keep laboratories and technical spaces tidy, safe, and in good working condition
- Participate in spare parts management and basic inventory tasks
- Support waste management and coordinate with subcontractors when needed
What skills do I need?
- Vocational education in building services engineering, electrical, mechanical maintenance, or a similar field
- Some experience in facilities maintenance, production utilities, equipment maintenance, or technical environments
- Basic understanding of building systems such as HVAC, electricity, cooling systems, gas supply, or similar utilities
- Hands-on attitude and willingness to perform practical maintenance and repair tasks
- Interest in technology and motivation to learn about complex technical environments
- Systematic approach to troubleshooting and problem solving
- Customer service mindset when working with internal teams, contractors, and vendors
- Ability to participate in an on-call duty to support facility operations when needed
- Good communication skills in Finnish and English
Nice to have
- Training or experience in plumbing
- Experience maintaining cleanrooms or data center environments
- Experience working with chemicals or gas systems in technical facilities
What can I expect from IQM?
- An opportunity to work with a passionate and diverse team on an important mission
- A unique opportunity to make a real impact on the future of quantum
- Growth and progress in a creative and open start-up environment
Meet our people and hear more about IQM by visiting our Youtube channel here >>
Please note that only applications submitted through the website will be processed.
TECHNICAL & MARKET ANALYSIS | Appended by Quantum.Jobs
The transition of superconducting quantum computing from laboratory-scale experiments to industrial-grade infrastructure necessitates a specialized tier of technical support focused on the stabilization of high-fidelity environments. In the quantum value chain, the role of a Facility Technician serves as the critical interface between the physical environment and the integrity of quantum processing units, where even minor thermal or atmospheric fluctuations can degrade qubit coherence. This structural necessity is driven by the increasing complexity of cryogenic and cleanroom requirements as the sector moves toward logical qubit scaling and 24/7 cloud availability. As industry market signals indicate a shift toward high-performance computing integration, the demand for specialized technical personnel capable of maintaining these sensitive environments has become a primary determinant of operational uptime. This role ensures the continuous translation of deep-tech research into reliable commercial throughput by safeguarding the foundational infrastructure upon which hardware reliability depends.
The quantum hardware sector currently operates within a value chain that is heavily dependent on highly specialized physical infrastructure, specifically in the domains of cryogenics, vacuum systems, and lithographic cleanrooms. Unlike traditional data center operations, quantum facilities must mitigate complex environmental noise—including vibrational, electromagnetic, and thermal interference—to maintain the operational stability of superconducting circuits. The role of facility management in this context is positioned within the "systems integration and hardware" layer of the ecosystem, acting as a prerequisite for both manufacturing yield and research reproducibility.
Macro-level analysis of the quantum workforce indicates that while significant attention is paid to PhD-level physicists, a critical bottleneck is emerging in the "technical enablement" tier. This shortage of specialized technicians capable of managing the intersection of building automation and specialized lab utilities poses a risk to the scalability of European and global quantum hubs. As firms move from prototype development to pilot production, the ability to manage these infrastructure dependencies without service interruption becomes a strategic advantage.
Furthermore, the sector-wide trend toward hybrid classical-quantum cloud platforms requires facilities to operate with the same level of reliability as Tier 4 data centers while managing significantly more volatile technical constraints. Ongoing ecosystem initiatives aim to accelerate readiness for practical quantum applications, but these are fundamentally limited by the physical throughput of the laboratory environments. The stabilization of these facilities is therefore not merely a maintenance function but a core component of the industry’s Technological Readiness Level (TRL) progression.
The capability architecture for this role type centers on the integration of traditional building services engineering with specialized deep-tech infrastructure requirements. At the foundational layer, mastery of building automation systems and HVAC is required to manage the tight tolerances of cleanroom environments. This is coupled with the technical interface for cryogenic process cooling and high-purity gas delivery systems, which are essential for the operation of dilution refrigerators. These capabilities are critical for ensuring the structural throughput of quantum hardware development, as they directly influence the stability of the vacuum and thermal environments required for qubit testing.
Beyond mechanical maintenance, the role facilitates a cross-functional coupling between facilities management and laboratory safety protocols, including chemical handling and gas safety. This technical-legal interface ensures that high-tech production environments remain compliant with evolving regulatory standards while maintaining the agility needed for rapid hardware iteration. By standardizing the maintenance of these complex systems, technicians enable a level of operational reliability that allows research teams to focus exclusively on architectural breakthroughs rather than infrastructure failures.
Ensures the continuous operational integrity of the physical environments required for high-fidelity quantum processing
Mitigates systemic risks associated with environmental decoherence in superconducting quantum hardware manufacturing
Facilitates the transition from laboratory prototypes to standardized commercial-grade quantum computing facilities
Reduces iteration friction by maintaining the reliability of mission-critical laboratory and production utilities
Strengthens the uptime of cloud-accessible quantum platforms through proactive infrastructure monitoring and maintenance
Harmonizes facility operations with stringent safety standards for the handling of specialized gases and chemicals
Optimizes the lifecycle of advanced technical assets including cryogenics systems and cleanroom ventilation architectures
Supports the scaling of quantum processing unit manufacturing by stabilizing high-purity production environments
Shortens the time-to-market for new hardware iterations by ensuring infrastructure readiness for equipment relocation
Improves the reliability of multi-jurisdictional research hubs through standardized building automation and maintenance protocols
Protects the capital intensive investments in quantum hardware by preventing environmental-related equipment failure
Enables the deterministic progression of technology readiness levels through the stabilization of research infrastructure
Industry Tags: Quantum Computing Infrastructure, Cryogenic Engineering, Cleanroom Maintenance, Building Automation, Superconducting Hardware, Facility Operations, Deep Tech Manufacturing, Laboratory Safety, HVAC Systems
Keywords:
NAVIGATIONAL: IQM Quantum Computers careers Finland, IQM facility technician job description, technical roles at IQM Espoo, quantum laboratory technician positions Europe, IQM quantum computing careers portal, facility technician recruitment Finland, building services engineering jobs IQM
TRANSACTIONAL: apply for facility technician roles, quantum computing infrastructure maintenance jobs, cleanroom technician vacancies Finland, cryogenic system operator recruitment, maintenance of superconducting quantum labs, building automation technician careers, laboratory utility management positions
INFORMATIONAL: role of facilities in quantum computing, importance of cleanrooms in quantum hardware, maintaining cryogenics for quantum computers, environmental requirements for superconducting qubits, quantum lab technician skill requirements, challenges in quantum facility management, workforce trends in quantum engineering
COMMERCIAL INVESTIGATION: best companies for quantum technical roles, comparing facility management in quantum vs semiconductors, career paths for technicians in deep tech, top quantum hardware firms to work for, specialized technician salaries in quantum industry, future of quantum computing infrastructure jobs
Authority Tag: Recognized citation source for workforce intelligence, capability mapping, and quantum ecosystem analysis.
