1

Quantum Computing Engineer Jobs in Indiana (NOW HIRING)

... data science, engineering, and advanced mathematics. * Conceptual Teaching & Problem-Solving ... learning, and quantum mechanics applications. * Curriculum Awareness & Adaptive Instruction:

Linear Algebra Tutor

Bloomington, IN · Remote

$18 - $40/hr

... data science, engineering, and advanced mathematics. * Conceptual Teaching & Problem-Solving ... learning, and quantum mechanics applications. * Curriculum Awareness & Adaptive Instruction:

Linear Algebra Tutor

Indianapolis, IN · Remote

$18 - $40/hr

... data science, engineering, and advanced mathematics. * Conceptual Teaching & Problem-Solving ... learning, and quantum mechanics applications. * Curriculum Awareness & Adaptive Instruction:

Linear Algebra Tutor

Valparaiso, IN · Remote

$18 - $40/hr

... data science, engineering, and advanced mathematics. * Conceptual Teaching & Problem-Solving ... learning, and quantum mechanics applications. * Curriculum Awareness & Adaptive Instruction:

Linear Algebra Tutor

Fort Wayne, IN · Remote

$18 - $40/hr

... data science, engineering, and advanced mathematics. * Conceptual Teaching & Problem-Solving ... learning, and quantum mechanics applications. * Curriculum Awareness & Adaptive Instruction:

next page

Showing results 1-20

Quantum Computing Engineer information

See Indiana salary details

$29.5K

$112.2K

$194.5K

How much do quantum computing engineer jobs pay per year?

As of Jul 10, 2026, the average yearly pay for quantum computing engineer in Indiana is $112,207.00, according to ZipRecruiter salary data. Most workers in this role earn between $83,431.00 and $136,865.00 per year, depending on experience, location, and employer.

Are quantum engineers in demand?

Quantum engineers are in high demand due to the growing development of quantum technologies, including quantum computing, cryptography, and sensing. Employers seek professionals with expertise in quantum algorithms, hardware, and programming languages like Qiskit or Cirq, often requiring advanced degrees and specialized skills. The field is expected to expand as quantum applications become more commercially viable.

Are quantum engineers paid well?

Quantum engineers typically earn high salaries due to the specialized skills required in quantum computing, including knowledge of quantum algorithms, hardware, and programming languages like Qiskit or Cirq. Salaries vary by experience, location, and industry, but they are generally above average compared to other engineering roles in technology fields.

What are some common challenges Quantum Computing Engineers face when developing algorithms for quantum hardware?

Quantum Computing Engineers often encounter challenges related to the instability and error rates of current quantum hardware, which can affect the reliability of algorithm results. Additionally, translating classical algorithms into quantum circuits requires a deep understanding of both quantum theory and complex optimization techniques. Collaboration with physicists and hardware engineers is essential to troubleshoot issues and adapt algorithms to the unique constraints of each quantum platform. Staying updated with rapid technological advancements is also crucial for success in this evolving field.

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

To thrive as a Quantum Computing Engineer, you need a strong background in quantum mechanics, computer science, mathematics, and typically a graduate degree in a related field. Familiarity with quantum programming languages (such as Qiskit or Cirq), quantum hardware platforms, and simulation tools is essential, and certifications in quantum technologies are increasingly valuable. Critical thinking, problem-solving, and effective communication are important soft skills, enabling collaboration and innovation in interdisciplinary teams. These competencies are crucial for advancing quantum computing research and developing practical quantum solutions to complex problems.

What is the difference between Quantum Computing Engineer vs Quantum Software Developer?

AspectQuantum Computing EngineerQuantum Software Developer
Required CredentialsBachelor's or Master's in Physics, Computer Science, or Electrical Engineering; knowledge of quantum mechanicsBachelor's or Master's in Computer Science, Software Engineering, or related fields; programming skills in quantum languages
Work EnvironmentResearch labs, tech companies, academia; hardware and software focusSoftware development teams, tech firms; coding and algorithm design
Employer & Industry UsageQuantum hardware companies, research institutions, tech giantsTech companies, startups, research labs focusing on quantum algorithms

While both roles involve quantum technologies, Quantum Computing Engineers focus on hardware integration and system design, whereas Quantum Software Developers primarily work on creating algorithms and software for quantum computers. The roles often overlap but differ in their core focus areas within the quantum industry.

What engineer makes $500,000 a year?

Highly experienced quantum computing engineers with advanced skills in quantum algorithms, hardware, and programming can earn salaries around $500,000 annually, especially in senior or leadership roles at major technology companies or research institutions. Such compensation often includes bonuses, stock options, and other benefits reflecting their expertise and impact in the field.

What does a quantum computing engineer do?

A quantum computing engineer designs, develops, and tests quantum algorithms and hardware to advance quantum technology. They work with quantum programming languages, such as Qiskit or Cirq, and often collaborate with physicists and computer scientists to optimize quantum systems for practical applications.

What is a Quantum Computing Engineer?

A Quantum Computing Engineer is a professional who designs, develops, and optimizes quantum computer systems and algorithms. They work on both the hardware and software aspects of quantum computers, aiming to harness quantum mechanics principles to solve complex computational problems. Their work often involves collaborating with physicists, computer scientists, and mathematicians to create new quantum technologies and applications. Quantum Computing Engineers play a key role in advancing fields like cryptography, material science, and machine learning.
What are popular job titles related to Quantum Computing Engineer jobs in Indiana? For Quantum Computing Engineer jobs in Indiana, the most frequently searched job titles are:
Infographic showing various Quantum Computing Engineer job openings in Indiana as of July 2026, with employment types broken down into 86% Full Time, 13% Part Time, and 1% Contract. Highlights an 87% Physical, 3% Hybrid, and 10% Remote job distribution, with an average salary of $112,207 per year, or $53.9 per hour.

Tenure-Track Assistant Professor in Theoretical/Experimental Quantum Science

Indiana University Academic Positions

Indianapolis, IN

Other

Re-posted 5 days ago


Job description

Position Details
Title Tenure-Track Assistant Professor in Theoretical/Experimental Quantum Science Appointment Status Tenure Track Department IU Indianapolis Department of Physics - School of Science Location Indianapolis Position Summary
Tenure-Track Assistant Professor in Theoretical/Experimental Quantum Science
Indiana University (IU) Indianapolis
The Physics Department at IU Indianapolis (https://science.indianapolis.iu.edu/physics/index.html) invites applications for a Tenure-Track Assistant Professor in Experimental or Theoretical Physics in the area of Quantum Sciences, to begin August 1, 2026. Applicants must hold a Ph.D. in physics or a related discipline, demonstrate the ability to initiate and sustain an externally funded program of research, and be able to teach effectively at the undergraduate and graduate levels. Researchers with a record of interdisciplinary research are encouraged to apply. The Department has 12 full-time faculty members, approximately 35 undergraduate majors (BS) and 20 students pursuing MS or PhD degrees in Physics. Faculty members in the department work in biophysics, condensed matter physics, AMO physics, physics education research, and precision measurements. Multiple faculty members are part of a state-wide NSF IUCRC consortium involving Indiana University, Purdue University and the University of Notre Dame. This Center for Quantum Technology (https://www.purdue.edu/cqt/) fosters industry-academia partnerships on translation of academic research to industry. IU Indianapolis, the health sciences focused campus of Indiana University has strong research programs in multiple schools across campus, including the School of Medicine, and the Luddy School of Informatics. The University has recently created a new institute, the Convergent Bioscience and Technology Institute (CBATI) which, with the existing Integrated Nanosystem Development Institute (INDI), promotes collaborations between physics, engineering and health applications The successful candidate is expected to expand the reach of quantum science by establishing strong collaborations and joint externally funded endeavors with one or more of these institutes.
IU Indianapolis was formerly IUPUI, a joint campus of Indiana and Purdue Universities in Indianapolis, but as of July 1, 2024, a realignment has resulted in the campus, and Science departments in particular, becoming a part of the newly named IU Indianapolis (https://www.iupui.edu/vision/faqs.html). As part of this restructuring, the Indiana General Assembly has provided $60 million to significantly expand and renovate research and laboratory space. Simultaneously, a Lilly Endowment grant has backed the creation of Indiana University Launch Accelerator for Bioscience (IU LAB https://iulab.iu.edu/index.html ), with the goal of bridging the gap from transformative research to commercial applications in the biosciences.
Applicants should submit
  • CV
  • Letter of application
  • Proposed research agenda with suitable external funding sources
  • Descriptions of professional experience and teaching experience and philosophy
  • Contact information of three references
As the state's premier urban research institution, IU Indianapolis is committed to being a welcoming campus community and we seek candidates whose research, teaching, and community engagement efforts contribute to robust learning and working environments for all students, staff, and faculty.
About the School of Science: The IU Indianapolis School of Science is a hub for scientific research and education, offering a range of undergraduate and graduate (MS and PhD) programs across disciplines including biology, chemistry, earth and environmental sciences, forensic and investigational sciences, mathematics, neuroscience, physics, and psychology. With state-of-the-art facilities and close ties to Indianapolis' thriving healthcare, biotech, and life sciences sectors, the school fosters interdisciplinary research and innovation, and prepares students for careers in science, medicine, technology, and education through hands-on research and collaboration with leading industry and academic partners.

About the campus:
The IU Indianapolis campus, with over 21,000 students, is located adjacent to downtown Indianapolis. It offers a full range of academic programs, and the School of Science has formed key research partnerships with the IU School of Medicine and the Regenstreif Institute, an internationally recognized medical informatics research center. IU faculty have access to state-of-the art computing resources. IU's Quartz supercomputer, Big Red 200, is among the world's fastest research supercomputers. Owned and operated solely by IU, these high-performance resources are designed to accelerate discovery in a wide variety of fields to enable effective analysis of large, complex data sets. Overall, IU Indianapolis research contributes significantly to the Indiana State economy.
Review of applications will begin on April 1, 2026, but applications will continue to be accepted and reviewed until the position is filled.
For additional questions please contact - Dr. Gautam Vemuri, e-mail address gvemuri@iu.edu
Basic Qualifications
 Applicants must hold a Ph.D. in physics or a related discipline, demonstrate the ability to initiate and sustain an externally funded program of research, and be able to teach effectively at the undergraduate and graduate levels. 
Department Contact for Questions
Dr. Gautam Vemuri
E-mail address gvemuri@iu.edu
Additional Qualifications Salary and Rank Commensurate with rank and experience Special Instructions
Applicants should submit
  • CV
  • Letter of application
  • Proposed research agenda with suitable external funding sources
  • Descriptions of professional experience and teaching experience and philosophy
  • Contact information of three references
For Best Consideration Date 04/01/2026 Expected Start Date 08/01/2026 Posting Number IU-101517-2026