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Physics Simulation Python Jobs in Morristown, NJ

Senior Plasma Control Engineer

Kearny, NJ ยท On-site

$120K - $160K/yr

... in simulation, physics-based models augmented with data-driven corrections, and adaptive control ... Python, MATLAB, C++, PyTorch or TensorFlow or JAX, Jupyter โ€ข Data infrastructure: MDSplus, EPICS ...

... in simulation, physics-based models augmented with data-driven corrections, and adaptive control ... Python, MATLAB, C++, PyTorch or TensorFlow or JAX, Jupyter โ€ข Data infrastructure: MDSplus, EPICS ...

Close the Simulation-to-Reality (Sim2Real) Gap: Implement Differentiable Physics Calibration ... Strong proficiency in manipulating spatial or geometric datasets using Python libraries (NumPy ...

Optical System Architect

New Providence, NJ ยท On-site

$117K - $188K/yr

Advance internally developed Python-based link simulation tools * Collaborate across photonic ... Master's degree (+) in Optics/Photonics, Physics, or Electrical Engineering with industry ...

Advance internally developed Python-based link simulation tools * Collaborate across photonic ... Master's degree (+) in Optics/Photonics, Physics, or Electrical Engineering with industry ...

Postdoctoral Researcher in Quantum Optics

Hoboken, NJ ยท On-site

$126K/yr

The role emphasizes theoretical modeling and simulation of quantum photonic devices and systems and ... Required Skills and Experience - PhD in Physics, Applied Physics, Electrical Engineering, or a ...

Burning Plasma Scientist

Kearny, NJ ยท On-site

$135K - $210K/yr

Thea Energy is leveraging recent breakthroughs in stellarator physics and engineering to create a ... In this role, you will run high-fidelity simulations and pioneer the use of Machine Learning ...

Burning Plasma Scientist

Kearny, NJ ยท On-site

$135K - $210K/yr

Thea Energy is leveraging recent breakthroughs in stellarator physics and engineering to create a ... In this role, you will run high-fidelity simulations and pioneer the use of Machine Learning ...

High-Speed Package Design Engineer

Murray Hill, NJ ยท On-site

$143K/yr

MS or PhD in Electrical Engineering, Applied Physics, or equivalent relevant industry experience ... Working knowledge of Python and/or Tcl for design automation, simulation support, or data analysis

Mechanical Engineer

Wharton, NJ ยท On-site

$107K - $195K/yr

Modeling & Simulation: Develop robust mathematical and physics-based models to simulate mechanical ... C++, Python, Fortran, or MATLAB). Analytical Skills - Ability to translate complex physical ...

Mechanical Engineer

Wharton, NJ ยท On-site

$107K - $195K/yr

Modeling & Simulation: Develop robust mathematical and physics-based models to simulate mechanical ... C++, Python, Fortran, or MATLAB). Analytical Skills - Ability to translate complex physical ...

... simulations, thermal analysis, and contribute to multi-physics modeling efforts. Required ... Python, MATLAB, FEA tools, COMSOL, C++, Fortran. * Ability to work independently and manage ...

Plasma-Materials Scientist

Kearny, NJ ยท On-site

$100K - $160K/yr

... simulations, thermal analysis, and contribute to multi-physics modeling efforts. Required ... Python, MATLAB, FEA tools, COMSOL, C++, Fortran. * Ability to work independently and manage ...

Evaluate, design, or simulate custom RF antenna apertures, microwave and photonic structures, and ... Bachelor of Science (BS) in Physics, Engineering Physics, RF Engineering, or Electrical Engineering ...

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Showing results 1-20

Physics Simulation Python information

See Morristown, NJ salary details

$11.3K

$69.6K

$125K

How much do physics simulation python jobs pay per year?

As of Jul 13, 2026, the average yearly pay for physics simulation python in Morristown, NJ is $69,556.00, according to ZipRecruiter salary data. Most workers in this role earn between $45,300.00 and $81,800.00 per year, depending on experience, location, and employer.

What is the difference between Physics Simulation Python vs Mechanical Engineer?

AspectPhysics Simulation PythonMechanical Engineer
Required CredentialsProgramming skills, knowledge of physics, often a degree in physics or computer scienceMechanical engineering degree, professional licensure in some regions
Work EnvironmentSoftware development, research labs, simulation environmentsDesign offices, manufacturing plants, R&D departments
Industry UsageSimulation software development, research, academiaProduct design, manufacturing, systems optimization

Physics Simulation Python focuses on developing and implementing physics-based simulations using Python programming, often in research or software development contexts. Mechanical Engineers apply engineering principles to design, analyze, and manufacture mechanical systems. While both roles require a strong understanding of physics, Physics Simulation Python emphasizes coding and simulation, whereas Mechanical Engineering involves practical design and application in physical systems.

Does NASA hire physicists?

Yes, NASA hires physicists for roles involving research, space science, and engineering projects. These positions often require advanced degrees in physics or related fields and familiarity with scientific tools and data analysis methods. Physicists at NASA contribute to mission development, data interpretation, and technological innovation.

What are the key skills and qualifications needed to thrive as a Physics Simulation Python Developer, and why are they important?

To excel as a Physics Simulation Python Developer, you need a strong background in physics, mathematics, and proficiency in Python programming, often supported by a degree in physics, engineering, or computer science. Familiarity with simulation libraries (such as NumPy, SciPy, PyBullet, or SimPy), version control systems like Git, and experience with visualization tools are commonly required. Analytical thinking, problem-solving abilities, and effective collaboration are standout soft skills in this role. These skills enable the development of accurate, efficient simulations and foster productive teamwork in research or engineering projects.

What are some common challenges faced by professionals working in Physics Simulation with Python, and how can they be addressed?

Professionals in Physics Simulation with Python often encounter challenges such as optimizing simulation performance, ensuring numerical accuracy, and integrating complex libraries (e.g., NumPy, SciPy, PyBullet) into larger workflows. Addressing these issues typically involves using efficient coding practices, leveraging vectorized operations, and validating results with analytical solutions or experimental data. Collaboration with domain experts and regular code reviews can also help maintain code reliability and project scalability. Staying updated with the latest simulation frameworks and actively participating in open-source communities are excellent ways to overcome technical hurdles.

Is Python still in demand in 2026?

Python remains highly in demand for physics simulation roles in 2026 due to its versatility, extensive libraries like NumPy and SciPy, and strong community support. Professionals skilled in Python, along with knowledge of scientific computing and simulation frameworks, are sought after in research, engineering, and development environments.

Who hires computational physicists?

Computational physicists are hired by research institutions, government laboratories, universities, and private industry companies involved in scientific research, technology development, and simulation modeling. They often work in fields such as aerospace, defense, energy, and software development, utilizing programming skills and scientific expertise to solve complex physical problems.

What is a Physics Simulation Python developer?

A Physics Simulation Python developer is a professional who uses the Python programming language to design, implement, and analyze simulations that model physical systems and phenomena. These simulations can range from simple particle motion to complex fluid dynamics or electromagnetic fields, and are widely used in research, engineering, gaming, and education. The developer typically utilizes scientific libraries such as NumPy, SciPy, and PyBullet, and may also work with visualization tools to present simulation results. Their work helps in understanding real-world physics problems, testing hypotheses, or creating realistic interactive environments.

Is Python good for physics simulation?

Physics simulation Python roles often require knowledge of Python libraries such as NumPy, SciPy, and PyBullet, which are well-suited for modeling physical systems. Python's ease of use, extensive scientific computing ecosystem, and ability to integrate with other tools make it a popular choice for developing and running physics simulations in research and industry. Proficiency in numerical methods and understanding of physics principles are also important for these positions.
What are popular job titles related to Physics Simulation Python jobs in Morristown, NJ? For Physics Simulation Python jobs in Morristown, NJ, the most frequently searched job titles are:
What job categories do people searching Physics Simulation Python jobs in Morristown, NJ look for? The top searched job categories for Physics Simulation Python jobs in Morristown, NJ are:
What cities near Morristown, NJ are hiring for Physics Simulation Python jobs? Cities near Morristown, NJ with the most Physics Simulation Python job openings:
Infographic showing various Physics Simulation Python job openings in Morristown, NJ as of July 2026, with employment types broken down into 100% Full Time. Highlights an 100% In-person job distribution, with an average salary of $69,556 per year, or $33.4 per hour.
Senior Plasma Control Engineer

Senior Plasma Control Engineer

Thea Energy

Kearny, NJ โ€ข On-site

$120K - $160K/yr

Full-time

Medical, Dental, Vision, PTO

Posted 27 days ago


Job description

About Thea Energy:
Thea Energy is leveraging recent breakthroughs in stellarator physics and engineering to create a faster and simpler approach to commercializing fusion energy. The company is reinventing the stellarator using computer-controlled arrays of planar coils thereby replacing the intricate, complex modular magnets required in all other stellarator architectures. Thea Energy is on a mission to create a limitless source of zero emission energy for a sustainable future.
Position Overview:
Thea Energy is seeking a Sr. Plasma Control Engineer to develop and deploy novel plasma control algorithms for the Eos stellarator, with a strong emphasis on AI and ML assisted control, real-time state estimation, and digital twins. This role sits in the Electrical Engineering and Controls Systems (EECS) team and works day to day with plasma physics, diagnostics, and plant control engineers to bridge plasma physics objectives with plasma control and plant control implementation.
If you can develop plasma control algorithms that are robust, constraint-aware, and ready for experimental operation, covering scenario design, supervisory control, and closed-loop regulation of core profiles, edge and divertor regimes, and off-normal response, we would like to hear from you. You will also contribute to subsystem digital twins and data pipelines that enable model development, validation, and deployment.
Key Responsibility Areas:
- Plasma control algorithms and real-time software:
โ€ข Develop, test, and iterate plasma control algorithms for Eos PCS, including multi-rate feedback, supervisory logic, and constraint handling.
โ€ข Build AI/ML assisted control modules, such as learning-augmented MPC, reinforcement learning in simulation, physics-based models augmented with data-driven corrections, and adaptive control and auto-tuning across operating conditions
โ€ข Develop and deploy real-time state estimation and multi-diagnostic data fusion to produce control-grade plasma state, including robust profile reconstruction and regime indicators suitable for closed-loop operation.
โ€ข Develop anomaly detection and early-warning indicators across plasma and plant signals, with clear thresholds and graded mitigation actions.
โ€ข Partner with plasma physicists to translate physics goals into control objectives, observables, constraints, and validation tests.
- Digital twins and modeling:
โ€ข Design and maintain digital twin models for plasma control loops and coupled plant subsystems, enabling simulation, optimization, and controller development and validation.
โ€ข Build model validation workflows, including post-shot reconstruction, scenario sweeps, sensitivity studies, and uncertainty-aware comparisons against experimental data
- Data and integration:
โ€ข Build and maintain data pipelines for time-series control and diagnostic data, including labeling, archiving, and training and inference workflows.
โ€ข Integrate algorithms into the control stack in collaboration with EECS, ensuring compatibility with real-time constraints and low-latency inference where needed.
โ€ข Maintain high software quality: version control, test coverage, reproducible environments, and operational readiness documentation.
Ideal Experience & Skillsets:
Required qualifications:
โ€ข BS or MS in Electrical Engineering, Computer Science, Physics, Applied Mathematics, or related field.
โ€ข 3 or more years of experience developing control algorithms, ML models, or real-time scientific software for complex physical systems.
โ€ข Strong programming skills in Python, MATLAB and C++.
โ€ข Experience with time-series data processing, signal conditioning, system identification, and validation on real data.
โ€ข Practical familiarity with modern ML tooling (PyTorch, TensorFlow, or JAX) and deploying models into production code paths.
โ€ข Working knowledge of modern control methods, such as state estimation, constrained optimization, MPC, and robust control.
Preferred qualifications:
โ€ข Experience with plasma control, stellarators or tokamaks, or adjacent fields such as accelerators and large scientific infrastructure.
โ€ข Prior work on digital twins, real-time simulators, or physics-informed ML for physical systems.
โ€ข Experience integrating with experimental control and data systems (for example EPICS, MDSplus, SCADA, OPC UA).
โ€ข Familiarity with low-latency deployment and inference engines such as ONNX Runtime and TensorRT.
โ€ข Background in any of the following plant subsystems is a plus: power electronics, cryogenics, vacuum and pumping, high-power RF systems, and safety controls.
Tools and platforms:
โ€ข Languages and frameworks: Python, MATLAB, C++, PyTorch or TensorFlow or JAX, Jupyter
โ€ข Data infrastructure: MDSplus, EPICS, HDF5, InfluxDB, OPC UA, Kafka or ZeroMQ
โ€ข Dev workflows: Git, Docker, MLflow, CI pipelines
โ€ข Simulation and modeling: MATLAB Simulink, Modelica, FMI, and custom physics solvers
Company Benefits:
  • Salary range $120,000-$160,000
  • Comprehensive health benefits (e.g. medical/dental/vision)
  • Employee equity stock options
  • 20 days PTO

Requirements:
  • Ability to occasionally lift up to 50 lbs.
  • Ability to perform activities such as typing, standing, or sitting for extended periods of time.
  • Willingness to occasionally travel or work required nights/weekends/on-call.
  • Ability to work in a facility that contains industrial hazards including heat, cold, noise, fumes, strong magnets, high voltage, high current, pressure systems, and cryogenics.

It's not necessary to meet all of the skillsets outlined above. Please feel free to send us a note and tell us why you would still be a great fit for this role or Thea Energy.
Diversity and Inclusion:
Thea Energy is an equal opportunity employer committed to creating a company of diverse backgrounds. By creating a diverse environment, we will bring new ideas and approaches to solving some of the world's hardest (and most important) problems. All qualified applicants will receive consideration for employment without regard to race, color, religion, sex, gender, sexual orientation, gender identity or expression, national origin, family or marital status, age, disability, veteran's status, or other characteristic protected by applicable laws and regulations.
We may use artificial intelligence (AI) tools to support parts of the hiring process, such as reviewing applications, analyzing resumes, or assessing responses and identifying potential inconsistencies or verification signals in application materials based on available information. These tools assist our recruitment team but do not replace human judgment. Final hiring decisions are ultimately made by humans. If you would like more information about how your data is processed, please contact us.

Thea Energy logo

About Thea Energy

Sourced by ZipRecruiter

Industry

Clean energy semiconductors manufacturing

Company size

11 - 50 Employees

Headquarters location

Princeton, NJ, US

Year founded

2022