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Computational Solid State Physics Jobs (NOW HIRING)

onsemi

Yield and Device Engineering Manager

Hopewell, NY · On-site

$127.80K - $217.20K/yr

S. in Electrical Engineering, Solid State Physics, or a related engineering field. * Minimum 10 years of experience in semiconductor device engineering, yield improvement, or integration/module ...

Mondelez International

Solid understanding of how physical transformations can be modelled (e.g. conduction of heat, fluid ... Game-engine physics: Unreal Engine, PhysX, Unity * Computational fluid dynamics: ANSYS Fluent ...

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$168.8K

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How much do computational solid state physics jobs pay per year?

As of May 29, 2026, the average yearly pay for computational solid state physics in the United States is $168,844.00, according to ZipRecruiter salary data. Most workers in this role earn between $155,500.00 and $182,000.00 per year, depending on experience, location, and employer.

What are the key skills and qualifications needed to thrive as a Computational Solid State Physicist, and why are they important?

To thrive as a Computational Solid State Physicist, you need a deep understanding of quantum mechanics, solid state theory, and numerical methods, typically supported by an advanced degree (MSc or PhD) in physics or a related field. Familiarity with programming languages (such as Python, Fortran, or C++), high-performance computing, and simulation packages like VASP or Quantum ESPRESSO is essential. Strong problem-solving skills, attention to detail, and effective communication help in interpreting results and collaborating with multidisciplinary teams. These competencies enable accurate modeling of materials and contribute to advancements in electronics, energy, and materials science.

What are some common challenges faced by professionals in computational solid state physics, and how can they be addressed?

Professionals in computational solid state physics often encounter challenges such as managing large datasets, optimizing simulation code for high-performance computing environments, and ensuring the accuracy of theoretical models. Collaborating closely with experimental physicists and materials scientists can help validate computational results and refine models. Additionally, staying current with advances in computational methods and software, as well as participating in interdisciplinary research teams, are crucial strategies for overcoming these challenges and advancing in the field.

What is computational solid state physics?

Computational solid state physics is a branch of physics that uses computer simulations and numerical methods to study the properties and behaviors of solid materials, such as crystals and metals. Researchers in this field use mathematical models and algorithms to understand electronic structure, magnetism, conductivity, and other physical phenomena at the atomic and molecular levels. This approach allows scientists to predict material properties and design new materials with specific characteristics, often complementing experimental work. The field is critical for advancements in electronics, nanotechnology, and materials science.

What jobs can you get with a computational physics degree?

A computational solid state physics degree prepares individuals for roles such as research scientist, computational physicist, materials scientist, or data analyst in industries like electronics, semiconductors, and materials development. These positions often require skills in programming, simulation software, and data analysis, and may involve working in research labs, industry, or academia.

What is the difference between Computational Solid State Physics vs Materials Scientist?

AspectComputational Solid State PhysicsMaterials Scientist
Required CredentialsPhysics or related degree, often with computational skillsMaterials science degree, often with experimental and computational skills
Work EnvironmentResearch labs, universities, industry focusing on simulationsLaboratories, industry, academia with both experimental and computational work
Employer & Industry UsageResearch institutions, tech companies, academiaManufacturing, R&D, academia, industry

Computational Solid State Physics primarily focuses on simulating and understanding the properties of solid materials using computational methods. In contrast, Materials Scientists often combine experimental and computational techniques to develop and improve materials for various applications. While both roles require a strong background in physics or materials science, Computational Solid State Physics emphasizes theoretical modeling, whereas Materials Scientists may work more broadly across research and development projects.

Infographic showing various Computational Solid State Physics job openings in the United States as of May 2026, with employment types broken down into 83% Full Time, 3% Part Time, 6% Temporary, 5% Contract, and 3% Nights. Highlights an 100% Physical job distribution, with an average salary of $168,844 per year, or $81.2 per hour.

Postdoctoral Fellow in Quantum Materials and Devices - Deng Research Group

Indiana University Academic Positions

Bloomington, IN

$45.30K - $61.50K/yr

Other

Posted 21 days ago

Job description

Position Details
Title Postdoctoral Fellow in Quantum Materials and Devices - Deng Research Group Appointment Status Non-Tenure Track Department IU Bloomington Intelligent Systems Engineering Location Bloomington Position Summary
Indiana University, Bloomington
Luddy School of Informatics, Computing, and Engineering
Department of Intelligent Systems Engineering
Postdoctoral Fellow in Quantum Materials and Devices - Deng Research Group
Prof. Bingchen Deng (https://luddy.indiana.edu/contact/profile/index.html?bingchen_deng) in the Department of Intelligent Systems Engineering at Indiana University Bloomington invites applications for a postdoctoral position focused on investigating emerging physical phenomena in low-dimensional quantum materials and leverage them in device applications. The candidates should be familiar with quantum physics and solid-state physics/devices and should have extensive hands-on experimental experience in one of the following fields: condensed matter physics, electrical engineering, or materials science. Prior experience in nanodevice fabrication and electrical/optical measurements is preferred but not required. The position is available immediately.
Our research explores fundamental science of low-dimensional quantum materials and their applications in microelectronic and optoelectronic devices. We study quantum confinement, light-matter interactions, topology, and strongly correlated electrons in a wide range of low-dimensional materials using nanofabricated devices and electrical and optical measurements. These efforts aim to uncover new physical phenomena and translate them into applications in semiconductor industry, quantum technologies, optical sensing, and so on.
We are committed to providing a supportive and collaborative environment for all group members to conduct innovative and independent research. The postdoctoral fellow will receive regular feedback and guidance through group meetings and individual meetings and will develop key technical and professional skills that are valuable for careers in academia or industry.

Appointment Type: Full-time non-tenure track appointment.
Salary: We offer a competitive salary commensurate with experience, plus generous benefits.
Basic Qualifications
  • Ph.D. in one of the following or related fields by the time of the appointment: Physics, Electrical Engineering, Materials Science and Engineering.
  • Hands-on experimental experience with solid-state device/materials.
  • Proficiency in data processing software such as Origin, JMP, Mathematica, MATLAB.
  • Good communication skills including oral and written.
  • Strong work ethics, motivations, and problem-solving capabilities.

Department Contact for Questions
Questions may be sent to: Dr. Bingchen Deng (bingdeng@iu.edu)
Additional Qualifications
Experience in one or more of the following is preferred:
  • 2D materials processing (exfoliation, synthesis, transfer, etc.)
  • Nanodevice fabrication in cleanroom environment (EBL, metallization, dry etching, ALD, etc.)
  • Electrical transport measurements at low temperatures
  • Optical spectroscopic measurements
  • Materials characterizations (AFM, SEM, TEM, Raman, etc.)
Salary and Rank Special Instructions
Applications received by March 1, 2026 will receive full consideration. However, we will continue accepting applications until the position is filled.
Interested candidates should review the application requirements and apply online at:
https://indiana.peopleadmin.com/postings/32145
We will continue accepting applications until the position is filled.
Application Materials:
1. Cover letter
2. CV
3. Contact information for three professional references


For Best Consideration Date 03/01/2026 Expected Start Date 04/01/2026 Posting Number IU-101490-2026

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