Commonwealth Fusion Systems (CFS) has the fastest, lowest cost path to commercial fusion energy.
CFS is collaborating with MIT to leverage decades of research combined with new groundbreaking high-temperature superconducting (HTS) magnet technology. HTS magnets will enable compact fusion power plants that can be constructed faster and at lower cost.
The mission is to deploy fusion power plants to meet global decarbonization goals as fast as possible. CFS has assembled a team of leaders in tough tech, fusion science, and manufacturing with a track record of rapid execution. Supported by the world’s leading investors, CFS is uniquely positioned to deliver limitless, clean, fusion power to combat climate change.
If you are interested in joining our team, check out cfs.energy/careers for more information.
Commonwealth Fusion Systems (CFS) has the fastest, lowest cost path to commercial fusion energy.
CFS is collaborating with MIT to leverage decades of research combined with new groundbreaking high-temperature superconducting (HTS) magnet technology. HTS magnets will enable compact fusion power plants that can be constructed faster and at lower cost. The mission is to deploy fusion power plants to meet global decarbonization goals as fast as possible. CFS has assembled a team of leaders in tough tech, fusion science, and manufacturing with a track record of rapid execution. Supported by the world’s leading investors, CFS is uniquely positioned to deliver limitless, clean, fusion power to combat climate change. To execute this plan, we are looking to add talented people to the team who are mission-driven and treat people well, improve our team by adding diverse perspectives and new ways of solving problems, have demonstrated exceptional results through a range of different pursuits, and have skill sets and experience that relate to this role.
ARC will be the first machine to produce electricity from fusion energy, serving as the cornerstone to a new industry. The 14 MeV neutrons from deuterium tritium fusion in ARC will be a challenging environment for solid materials. While ARC is being designed with a FLiBe molten salt blanket to reduce the volume of solid materials exposed to fusion neutrons, the vacuum vessel and internal components will be solid and subject to intense neutron bombardment. While the blanket tank and superconducting magnets are significantly shielded from the fusion neutrons, nuclear effects on these materials should still be understood. The Fusion Nuclear Materials Expert will be involved in ARC nuclear materials development, working closely with engineers to down-select materials, and designing ARC components exposed to the nuclear environment to retire technical gaps and risks. We are seeking experimental and computational nuclear materials experts in the following areas: structural material design and qualification, plasma facing materials and plasma-material interactions, advanced manufacturing and joining for nuclear components, and molten salt corrosion and mitigation.
CFS team members thrive in a fast-paced, dynamic environment and have demonstrated exceptional results through a range of different pursuits. We all tightly align with our company values of integrity, execution, impact and self-critique. As we grow, we are looking to add talented people who are mission driven and bring diverse perspectives and new ways of solving problems.
At CFS, we deeply value diversity and are an equal opportunity employer by choice. We consider all qualified applicants equally for employment. We do not discriminate on the basis of race, color, national origin, ancestry, citizenship status, protected veteran status, religion, physical or mental disability, marital status, sex, sexual orientation, gender identity or expression, age, or any other basis protected by law, ordinance, or regulation.
This team member will:
Identify and manage technology gaps and risks for fusion nuclear materials for ARCWork with CFS R&D and Open Innovation to identify and execute on opportunities to close gaps and retire risksCollaborate closely with ARC engineers on fusion nuclear issues with their systemsThe ideal candidate will have most, if not all, of these requirements:
PhD in Nuclear Engineering, Materials Science, or related field7 years of nuclear materials testing and characterizationNuclear effects in materials, especially structural alloys, plasma-facing components, normal and superconductors, and electrical insulatorsAdditional preferred experience and/or qualifications:
Focus on fusion nuclear materials, especially in a molten salt environmentAbility to perform activities such as typing and sitting for extended periods of timeWillingness to do occasional travel