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Quantum Electrical Engineer Jobs in Indiana (NOW HIRING)

Integrity Trade Services

Quality Engineer

Franklin, IN

$71K - $95K/yr

Bachelor's degree in engineering (industrial, mechanical, manufacturing, electrical, or related ... Familiarity with ERP systems such as Quantum or similar software. * Knowledge of aircraft component ...

Integrity Trade Services

Quality Engineer

Franklin, IN · On-site

$95K/yr

Bachelor's degree in engineering (industrial, mechanical, manufacturing, electrical, or related ... Familiarity with ERP systems such as Quantum or similar software. * Knowledge of aircraft component ...

Venteon

2nd Shift Controls Technician

Fort Wayne, IN · On-site

$35/hr

Troubleshoot and repair various types of electrical controls, drives, communications, plant power ... Step 7 Programming Software DRIVES Allen Bradley Power Flex Indramat Ormec Quantum III ...

RBC Bearings

Quality Engineer IV (QUALI003171)

Franklin, IN · On-site

$67K - $87K/yr

Bachelor's degree in engineering-such as industrial, mechanical, manufacturing, electrical-or in a ... Knowledge of Quantum ERP software. * The ideal candidate will have a sound understanding of ...

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Quantum Electrical Engineer information

See Indiana salary details

$48.1K

$105.7K

$159.9K

How much do quantum electrical engineer jobs pay per year?

As of Jun 12, 2026, the average yearly pay for quantum electrical engineer in Indiana is $105,710.00, according to ZipRecruiter salary data. Most workers in this role earn between $79,000.00 and $125,600.00 per year, depending on experience, location, and employer.

What are Quantum Electrical Engineers?

Quantum Electrical Engineers are professionals who design, develop, and test electronic systems and devices that operate based on quantum mechanical principles. They work on technologies such as quantum computers, quantum sensors, and quantum communication systems, integrating quantum theory with electrical engineering. Their work often involves research and development in both hardware and software to advance emerging quantum technologies.

What engineers make $300,000 a year?

Senior engineers in specialized fields such as quantum electrical engineering, software engineering, petroleum engineering, and aerospace engineering can earn $300,000 or more annually, especially with extensive experience, advanced skills, and leadership roles. High compensation often involves working in high-demand industries, holding advanced degrees, or obtaining professional certifications.

What is the difference between Quantum Electrical Engineer vs Quantum Hardware Engineer?

AspectQuantum Electrical EngineerQuantum Hardware Engineer
Required CredentialsBachelor's or Master's in Electrical Engineering, Physics, or related fields; knowledge of quantum electronicsBachelor's or Master's in Electrical Engineering, Physics, or related fields; focus on hardware design
Work EnvironmentResearch labs, tech companies, industry R&DLaboratories, manufacturing facilities, research institutions
Employer & Industry UsageQuantum computing companies, tech firms, research institutionsQuantum hardware startups, research labs, semiconductor companies

Both roles often require similar educational backgrounds and work in related environments, but Quantum Electrical Engineers focus more on electronic components and circuit design for quantum systems, while Quantum Hardware Engineers concentrate on building and testing quantum devices and hardware components.

What engineers make $500,000?

Senior engineers in specialized fields such as aerospace, petroleum, or software engineering can earn $500,000 or more annually, especially with experience, advanced skills, and leadership roles. Quantum electrical engineers with extensive expertise and working in high-demand industries or research environments may also reach this level, often through bonuses, stock options, or consulting work.

Can an electrical engineer become a Quantum Engineer?

Yes, an electrical engineer can become a quantum engineer by gaining knowledge in quantum mechanics, quantum computing, and related technologies through additional education, training, or certifications. Many quantum engineers have backgrounds in electrical engineering, physics, or computer science, and often work with tools like quantum programming languages and cryogenic systems.

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

To thrive as a Quantum Electrical Engineer, you need a strong background in electrical engineering, quantum mechanics, and advanced mathematics, typically supported by a relevant degree such as a master's or PhD. Experience with quantum simulation software, cryogenic systems, and laboratory instrumentation, along with familiarity with programming languages like Python or MATLAB, is highly valued. Analytical thinking, problem-solving abilities, and strong teamwork and communication skills help professionals excel in this multidisciplinary field. These competencies are crucial for advancing quantum technology research and development, ensuring innovation and practical implementation in this cutting-edge industry.

Can you make $500,000 as an electrical engineer?

Quantum electrical engineers working in specialized fields such as quantum computing or research at top tech companies can potentially earn salaries approaching or exceeding $500,000, especially with advanced skills, experience, and relevant certifications. However, most electrical engineers earn less, with salaries typically ranging from $70,000 to $150,000 annually, depending on industry, location, and level of expertise.

How does a Quantum Electrical Engineer typically collaborate with multidisciplinary teams on quantum technology projects?

Quantum Electrical Engineers frequently work alongside physicists, software engineers, and materials scientists to design and optimize quantum devices and systems. Collaboration is key, as these engineers integrate electrical engineering principles with quantum mechanics, ensuring that hardware meets the stringent requirements for quantum coherence and signal integrity. Regular team meetings, joint troubleshooting sessions, and cross-functional project planning are common, enabling efficient progress from initial design through to experimental validation and scaling. Such teamwork helps bridge the gap between theoretical concepts and practical, scalable quantum technology.
What are popular job titles related to Quantum Electrical Engineer jobs in Indiana? For Quantum Electrical Engineer jobs in Indiana, the most frequently searched job titles are:
What job categories do people searching Quantum Electrical Engineer jobs in Indiana look for? The top searched job categories for Quantum Electrical Engineer jobs in Indiana are:
What cities in Indiana are hiring for Quantum Electrical Engineer jobs? Cities in Indiana with the most Quantum Electrical Engineer job openings:
Quantum Electrical Engineer jobs near you

Postdoctoral Fellow in Quantum Physics

Indiana University Academic Positions

Kokomo, IN

Other

Posted 9 days ago

Job description

Position Details
Title Postdoctoral Fellow in Quantum Physics Appointment Status Non-Tenure Track Department IU Bloomington Physics Location Bloomington Position Summary
A Postdoctoral Fellow Position in Quantum Optical Physics: Theoretical, Simulation, Modeling for Experimental Design
Title: Postdoctoral Fellow, physics
Appointment Status: Non-tenure track
Department: Department of Physics, Indiana University Bloomington
Location: Bloomington, Indiana, U.S.A.
Position Summary: The Department of Physics at Indiana University Bloomington invites applications for a Postdoctoral Fellow position. This position is designed for a researcher who sits at the intersection of theoretical and experimental physics. The successful candidate will lead the architectural design/modeling/simulation of a groundbreaking experiment: the direct harvesting and extraction of quantum entanglement from the electromagnetic vacuum states. This is a design-phase experiment of the project, which requires simulations, modeling, calculation based on experimentally feasible and practical constrains and conditions to deliver an experiment-ready blueprint and architecture.
Key Research Responsibilities include: (1) Theoretical Modeling: Develop and refine models for entanglement harvesting using continuous-variable quantum information theory and Gaussian quantum states steering. (2) Experimental Simulation: Simulate the detection of vacuum fluctuations via electro-optic sampling, incorporating realistic parameters for femtosecond few-cycle laser pulses, terahertz bandwidths, and detector electronics. (3) System Architecture: Define the critical engineering requirements (optical pulse duration, terahertz crystal materials in cryogenetic environments, signal-to-noise ratio optimization, entanglement witnesses and verification) necessary to resolve the entangled vacuum variance.
Relevant keywords of this project in experiment includes: electro-optic sampling, terahertz pulses, femtosecond laser pulses, ultrafast optics, carrier-envelope phase/offset, balanced homodyne detection; keywords in theory includes: relativistic quantum information science, quantum field theory, quantum optics, quantum fluctuations of the vacuum, Unruh-DeWitt detector model, entanglement harvesting, entanglement witness.
In this exciting role and project, you will work under the direction of Prof. Chen-Ting Liao and in collaboration with other team members and collaborators. For additional information about the Liao research group, please visit: https://sites.google.com/view/chentingliao/
Department Contact for Questions: Questions regarding the position or application process can be directed to Prof. Chen-Ting Liao (Liao3[at]IU.edu)
Basic Qualifications:
Eligibility according to the project sponsor: (1) U.S. citizenship, or (2) U.S. Permanent Resident/Green Card holder, or (3) in the application process to become a U.S. Permanent Resident/Green Card holder.
Ph.D. in Physics, Chemistry, Quantum Information Science, Optics, Electrical Engineering, or a related field at the time of appointment. (ABD candidates will be considered).
Demonstrated ability to bridge theoretical concepts with physical realizability.
Strong track record of scientific research and peer-reviewed publications.
Excellent written and spoken English communication skills.
High degree of independence and ability to work in a collaborative team environment.
Additional Qualifications:
Theory: Expertise in quantum optics, quantum information science, or quantum field theory.
Simulation: Proficiency in MATLAB or Python for simulation/modeling and data analysis.
Experience with COMSOL Multiphysics and/or Lumerical is a plus.
Experiment: Familiarity with ultrafast optics, terahertz generation, or balanced homodyne detection is highly desirable.
Design: some experience using CAD software (e.g., SolidWorks) for experimental layouts is advantageous.
Required Documents: (1) Curriculum Vitae (including completed degrees, list of publications, research experience, and expertise), (2) Letter of Application (cover letter), (3) contact information of at least two references. Applications should be submitted through the application portal located at: https://indiana.peopleadmin.com/postings/31923
Expected Start Date: Summer 2026. Applications will be reviewed starting on 2/15/26 and will continue until the position is filled.
Salary and Rank: $54-59K/yr, Postdoctoral Fellow. The initial appointment for this position will be for 2 years. Additional 1 year extension will be available based on performance, mutual agreement, and funding availability of the phase II of the project. A competitive benefits package will be offered by the University.

Basic Qualifications
Basic Qualifications:
Eligibility according to the project sponser: (1) U.S. citizenship, or (2) U.S. Permanent Resident/Green Card holder, or (3) in the application process to become a U.S. Permanent Resident/Green Card holder.
Ph.D. in Physics, Chemistry, Quantum Information Science, Optics, Electrical Engineering, or a related field at the time of appointment. (ABD candidates will be considered).
Demonstrated ability to bridge theoretical concepts with physical realizability.
Strong track record of scientific research and peer-reviewed publications.
Excellent written and spoken English communication skills.
High degree of independence and ability to work in a collaborative team environment.
Department Contact for Questions
Questions regarding the position or application process can be directed to Prof. Chen-Ting Liao (Liao3[at]IU.edu)
Additional Qualifications
Additional Qualifications:
Theory: Expertise in quantum optics, quantum information science, or quantum field theory.
Simulation: Proficiency in MATLAB or Python for simulation/modeling and data analysis.
Experience with COMSOL Multiphysics and/or Lumerical is a plus.
Experiment: Familiarity with ultrafast optics, terahertz generation, or balanced homodyne detection is highly desirable.
Design: some experience using CAD software (e.g., SolidWorks) for experimental layouts is advantageous.
Salary and Rank Special Instructions For Best Consideration Date 02/15/2026 Expected Start Date 07/01/2026 Posting Number IU-101463-2026

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