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Neutronics Jobs in Tennessee (NOW HIRING)

Nuclear Engineer

Oak Ridge, TN ยท On-site

$94K - $112K/yr

Perform neutronics, shielding, dose, and activation analyses to support system design and safety evaluations. * Interpret simulation results and provide engineering recommendations to inform design ...

Nuclear Engineer

Oak Ridge, TN

$94K - $112K/yr

Perform neutronics, shielding, dose, and activation analyses to support system design and safety evaluations. * Interpret simulation results and provide engineering recommendations to inform design ...

Interact with other engineering and physics disciplines including thermal, mechanical, and neutronics What you'll need: * Doctoral degree/Masters in Electrical Engineering, Physics, Applied Physics ...

Neutronics information

What are the key skills and qualifications needed to thrive as a Neutronics Engineer, and why are they important?

To thrive as a Neutronics Engineer, you need a solid background in nuclear engineering, physics, and mathematics, typically supported by a relevant degree. Familiarity with reactor physics codes (such as MCNP or SCALE), simulation software, and sometimes a Professional Engineer (PE) license are often required. Analytical thinking, problem-solving abilities, and clear communication are crucial soft skills for effectively interpreting complex data and collaborating with multidisciplinary teams. These skills ensure the safe, efficient, and accurate modeling of nuclear systems, which is essential for reactor design, operation, and regulatory compliance.

What are neutronics?

Neutronics is the study of the behavior and movement of neutrons within nuclear reactors or other systems where nuclear reactions occur. It involves analyzing how neutrons interact with materials, how they are absorbed or scattered, and how their distribution affects the operation and safety of a nuclear reactor. Neutronics specialists use mathematical models and simulations to optimize reactor design, ensure efficient fuel usage, and maintain safety standards. This field is essential for the effective and safe generation of nuclear energy.

What are some common challenges faced by professionals working in neutronics, and how can they be addressed?

Professionals in neutronics often encounter challenges such as accurately modeling complex nuclear systems, managing large datasets, and ensuring strict adherence to safety protocols. These challenges can be addressed by staying updated with the latest simulation tools, collaborating closely with multidisciplinary teams (such as nuclear engineers and safety analysts), and participating in ongoing training. Additionally, effective communication and documentation are essential for ensuring that results are clearly understood and can be acted upon by both technical and non-technical stakeholders.

What is the difference between Neutronics vs Radiation Protection Specialist?

AspectNeutronicsRadiation Protection Specialist
Required CredentialsDegree in nuclear engineering, certifications like NEUP or NEETDegree in health physics, certifications like CHP or RC
Work EnvironmentResearch labs, nuclear power plants, simulation centersField sites, hospitals, nuclear facilities
Industry UsageDesigning reactor cores, neutron transport analysisMonitoring radiation exposure, safety compliance

Neutronics focuses on neutron behavior and reactor design, while Radiation Protection Specialists concentrate on safety and exposure management. Both roles require nuclear-related credentials and often work within the nuclear industry, but their daily tasks and focus areas differ significantly.

Can you make $500,000 as a nuclear engineer?

Nuclear engineers can earn high salaries, especially with extensive experience, advanced certifications, or working in specialized roles such as reactor management or research. While some senior or highly specialized nuclear engineers may reach or exceed $500,000 annually, the average salary is typically lower, around $100,000 to $150,000 per year. Achieving a $500,000 salary usually requires significant experience, leadership positions, or working in high-paying industries or locations.

What jobs can you do with neuropathy?

Neutronics professionals typically work in fields related to nuclear science, radiation safety, or medical physics, where neuropathy is not a common concern. If neuropathy affects a worker, it may impact tasks requiring fine motor skills or physical endurance, but job roles generally focus on technical analysis, modeling, or safety assessments. Accommodations or medical evaluations may be necessary for affected individuals to perform certain duties safely.

What is the highest paying nuclear job?

The highest paying nuclear job is typically a nuclear engineering manager or senior reactor operator, with salaries often exceeding $150,000 annually. These roles require advanced technical expertise, certifications, and experience in nuclear safety, operations, or research environments.

Do nuclear physicists get paid well?

Nuclear physicists, including those working in neutronics, typically earn competitive salaries that reflect their advanced education and specialized skills. Salaries can vary based on experience, location, and employer, but they are generally above average compared to many other scientific fields. Many professionals in this field also benefit from opportunities in research, government agencies, and private industry.
What cities in Tennessee are hiring for Neutronics jobs? Cities in Tennessee with the most Neutronics job openings:

Multiphysics Modeling Engineer

Type One Energy

Knoxville, TN โ€ข On-site

Full-time

Retirement

Re-posted 17 days ago


Job description

Join us in our mission to commercialize fusion energy
About Type One Energy
Type One Energy Group is mission-driven to provide sustainable, affordable fusion power to the world. Established in 2019 and venture-backed in 2023, the company is led by a team of globally recognized fusion scientists with a strong track record of building state-of-the-art stellarator fusion machines, together with veteran business leaders experienced in scaling companies and commercializing energy technologies.
If you are searching for the best new ideas and share our vision, join us as a Multiphysics Modeling Engineer. This is what you need to know:
Location: Knoxville, TN or Culham (UK)
Salary: Highly Competitive Plus Benefits
Contract: Permanent, full time
Reporting to: Senior Director of Nuclear and Fuel Cycle
Your role in the mission:
Type One Energy is seeking a highly experienced and technically strong Multiphysics Modeling Engineer to drive the development, integration, and application of advanced multiphysics simulation capabilities for fusion energy systems.
This role is responsible for establishing and executing the company's strategy for MOOSE-based simulation across plasma-facing components, structural systems, blankets, and tritium-relevant subsystems. The role will play a critical part in enabling high-fidelity, tightly coupled simulations to inform the design of the Infinity Two stellarator power plant and future commercial systems.
The successful candidate will help establish multiphysics capabilities, develop simulation workflows that integrate radiation, thermal, structural, materials, and tritium physics, and ensure that modeling outputs are rigorously validated and directly tied to engineering decision-making.
In addition, the Multiphysics Modeling Engineer will help define the architecture for integrated simulation environments, including coupling MOOSE with external tools (e.g., neutronics, plasma codes, CAD/meshing pipelines), and will contribute to the development closely coupled models for near-term experimental activities.
  • Serve as a technical authority for multiphysics simulation using the MOOSE framework across key fusion subsystems (e.g., plasma-facing components, blankets, tritium plant, etc).
  • Develop and execute a comprehensive roadmap for MOOSE-based modelling, including physics capability development, validation strategy, and integration with the broader design toolchain.
  • Lead the development of tightly coupled multiphysics models (thermal, structural, tritium transport, radiation, electromagnetics, and materials behaviour) to support fusion energy system design.
  • Establish best practices for software quality assurance, model development, verification & validation (V&V), configuration control, and reproducibility.
  • Collaborate with cross-functional teams (plasma physics, neutronics, mechanical, thermofluid, materials, systems engineering) to ensure consistent and integrated modelling approaches.
  • Develop workflows to couple MOOSE with external tools (e.g., radiation transport, plasma, structural, CFD tools) for end-to-end simulation capability.
  • Apply simulation results to evaluate performance, lifetime, and failure modes of critical components under fusion-relevant conditions.
  • Support design trade studies and optimization using high-fidelity multiphysics simulations.
  • Integrate experimental data and R&D results into models to improve predictive capability and reduce uncertainty.
  • Contribute to the development of closely coupled models for near-term experimental activities.
  • Prepare technical reports, presentations, and publications to communicate modelling results and influence design decisions.
  • Engage with external collaborators (national labs, universities, industry partners) to advance state-of-the-art multiphysics modelling approaches.
  • Be accountable for the quality, accuracy, and applicability of simulation tools and results.
  • Provide transparent and realistic assessments of timelines, risks, resource requirements, and data needs.

What you'll need:
  • PhD or equivalent experience in Nuclear Engineering, Mechanical Engineering, Physics, Materials Science, Computer Science, or a related field.
  • Proven track record in multiphysics simulation and computational modeling, ideally in fusion, advanced fission, or high-performance energy systems.
  • Deep experience with the MOOSE framework and its ecosystem.
  • Strong understanding of coupled physics relevant to fusion systems, including: Heat transfer and thermal hydraulics, Structural mechanics and material behavior, Radiation effects and materials degradation, Tritium/hydrogen transport, and Electromagnetic effects (desirable).
  • Familiarity with complementary tools such as OpenMC, MCNP, ANSYS, COMSOL, OpenFOAM, or plasma simulation codes.
  • Experience developing or extending scientific software in C++ and/or Python.
  • Demonstrated experience leading technical programs and managing complex, multidisciplinary modeling efforts.
  • Experience with verification and validation methodologies and uncertainty quantification.
  • Familiarity with HPC environments and parallel computing.
  • Experience integrating multiple simulation tools and managing complex workflows.
  • Strong analytical, problem-solving, and systems-thinking skills.
  • Excellent communication skills, with the ability to translate advanced simulation results into engineering insight.

We offer:
In addition to a basic salary and yearly bonus, you will also get...
  • A hybrid work policy
  • Stock options
  • Relocation assistance
  • Insurance plans
  • Retirement options
  • And many more great voluntary benefits

Type One Energy applies proven advanced manufacturing methods, modern computational physics and high-field superconducting magnets to develop its optimized stellarator fusion energy system. Our FusionDirect development program pursues the lowest-risk, shortest-schedule path to a fusion power plant over the coming decade, using a partner-intensive and capital-efficient strategy.
Type One Energy is committed to community engagement in the development and deployment of its clean energy technology. For more information, visit www.typeoneenergy.com or follow us on LinkedIn.
Equal Opportunity Statement
Type One Energy is an equal opportunity employer. We value diversity, searching for the best new ideas and remaining open to unique perspectives. Therefore, all qualified applicants will receive consideration for employment independent of race, color, religion, sex, sexual orientation, gender identity, national origin, disability or veteran status, age, or any other characteristics protected by applicable federal, state, or local laws. All qualified individuals are encouraged to apply.