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Quantum Computing Engineer information

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$29.5K

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How much do quantum computing engineer jobs pay per year?

As of Jun 19, 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 increasingly in demand due to advancements in quantum computing technology and growing industry investment. They typically require skills in quantum algorithms, hardware, and programming languages like Qiskit or Cirq, with job growth expected to continue as the field expands.

Will AI replace quantum computing?

As a Quantum Computing Engineer, it is important to understand that AI and quantum computing are complementary technologies; AI is unlikely to replace quantum computing, which focuses on solving complex problems beyond classical computers' capabilities. Instead, AI can be used to optimize quantum algorithms and error correction, enhancing quantum system performance. Both fields are advancing concurrently, with quantum computing providing new opportunities for AI applications in areas like cryptography and simulation.

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 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 processors, programming languages like Qiskit or Cirq, and often require knowledge of quantum mechanics, computer science, and engineering principles. Their work involves optimizing quantum systems for stability, error correction, and practical application development.

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:
What job categories do people searching Quantum Computing Engineer jobs in Indiana look for? The top searched job categories for Quantum Computing Engineer jobs in Indiana are:
Quantum Computing Engineer jobs near you
Principal Quantum Engineer

Principal Quantum Engineer

Microsoft

West Lafayette, IN • On-site

Full-time

Posted 13 days ago

Microsoft rating

8.6

Company rating: 8.6 out of 10

Based on 125 frontline employees who took The Breakroom Quiz

49th of 191 rated software companies

Job description

Overview
Microsoft Quantum has assembled a talented, diverse international team to build the world's first scalable quantum computing system. Our full-stack approach spans innovation from the physics of the quantum plane to the delivery of global quantum services. The Microsoft Quantum program aims to fundamentally transform computing to help solve some of humanity's most intractable problems as we enter an accelerated era of quantum advancement.
We are seeking talented, focused individuals to help deliver useful quantum computers. Microsoft is pursuing topological qubits for large-scale quantum computing and partnering with a growing ecosystem of companies to advance quantum systems across every layer of the stack and bring them to market through the Microsoft Quantum accelerator platform. We believe AI can speed up the development of useful quantum computers and shorten the path to their realization. For more information about the Microsoft Quantum team, please visit https://quantum.microsoft.com/
As a Principal Quantum Engineer, you will guide process integration decisions and fabrication flows via theoretical insights and atomistic simulations. You'll work closely with other experts in atomistic simulations and with fabrication, growth, characterization, and device engineering teams in a fast-paced, interdisciplinary environment. This role offers a unique opportunity to shape revolutionary technology and accelerate progress toward scalable quantum computing based on topological qubits. As a Principal Quantum Engineer, you will operate at a technical leadership level, guiding development of simulation pipelines and driving decisions. This role expands beyond individual contribution to include technical direction-setting and cross-organization influence.
Microsoft's mission is to empower every person and every organization on the planet to achieve more. As employees we come together with a growth mindset, innovate to empower others, and collaborate to realize our shared goals. Each day we build on our values of respect, integrity, and accountability to create a culture of inclusion where everyone can thrive at work and beyond.
Responsibilities
  • Simulation Strategy: Own the simulation roadmap (DFT/MD), for crystalline and amorphous materials, defects, and interfaces.

  • Validation & Optimization: Build models and propose experiments for validation, benchmarking and optimization.

  • Experiment Alignment: Partner with growth/fab/characterization/device teams to close gaps between theory and data and translate results into process windows and material choices.

  • Tooling & Scale: Architect scalable workflows, libraries, and data standards for reliable, high-throughput studies on HPC.

  • Decision Making: Communicate clear recommendations, trade-offs, and risks to engineering and leadership.

  • Other:

    • Embody our culture and values

Qualifications
Required/minimum qualifications
  • Doctorate in Physics, Engineering, or related field AND 3+ years experience in industry or in a research and development environment

    • OR Master's Degree in Physics, Engineering, or related field AND 6+ years experience in industry or in a research and development environment

    • OR Bachelor's Degree in Physics, Engineering, or related field AND 8+ years experience in industry or in a research and development environment

    • OR equivalent experience.
  • As stated in the job posting, this position requires verification of citizenship or other protected status to meet legal requirements of the role. If the role requires US citizenship, as indicated in the job description, a valid US passport must be provided to verify your citizenship. If the role requires US Person status, as indicated in the job description, US citizens must provide a valid US passport for verification while lawful permanent residents, refugees, and asylees may complete this verification using green cards or other status documents, as applicable.

Other Requirements:
  • Ability to meet Microsoft, customer and/or government security screening requirements are required for this role. These requirements include, but are not limited to the following specialized security screenings:

    • Microsoft Cloud Background Check: This position will be required to pass the Microsoft Cloud Background Check upon hire/transfer and every two years thereafter.

    • Citizenship & Citizenship Verification: This role will require access to information that is controlled for export under export control regulations, potentially under the U.S. International Traffic in Arms Regulations or Export Administration Regulations, the EU Dual Use Regulation, and/or other export control regulations. As a condition of employment, the successful candidate will be required to provide either proof of their country of citizenship or proof of their U.S. permanent residency or other protected status (e.g., under 8 U.S.C. 1324b(a)(3)) for assessment of eligibility to access the export-controlled information. To meet this legal requirement, and as a condition of employment, the successful candidate's citizenship will be verified with a valid passport. Lawful permanent residents, refugees, and asylees may verify status using other documents, where applicable.

  • Ability to work in an "AI-first" environment using modern AI tools to accelerate discovery through both hardware and software development.

  • Ability to design and build AI agents/copilots that assist with experiment setup, log triage, measurement report generation, protocol templating, and knowledge retrieval (e.g. instrument manuals, design docs).

Additional or preferred qualifications
  • Doctorate in Physics, Engineering, or related field AND 5+ years experience in industry or in a research and development environment

    • OR Master's Degree in Physics, Engineering, or related field AND 8+ years experience in industry or in a research and development environment

    • OR Bachelor's Degree in Physics, Engineering, or related field AND 12+ years experience in industry or in a research and development environment

    • OR equivalent experience.

  • Demonstrated technical leadership on complex, multi-disciplinary hardware programs

  • Research experience in atomistic and materials modeling in a commercial or academic setting.

  • Experience with first-principles simulations (e.g., DFT) and molecular dynamics for materials and interfaces.

  • Familiarity with modeling dielectric materials, defects, diffusion, and interfaces.

  • Simulation experience of superconducting and semiconducting materials and their interfaces.

  • Experience modeling finite-temperature dynamics and transport in materials (e.g., diffusion, reactions, amorphization) using MD and related methods.

  • Proficiency with high performance computing environments.

  • Experience with collaborative code development in Python.

#Quantum #QuantumCareers #MDQCareers
Quantum Engineering IC5 - The typical base pay range for this role across the U.S. is USD $142,800.00 - $274,800.00 per year. There is a different range applicable to specific work locations, within the San Francisco Bay area and New York City metropolitan area, and the base pay range for this role in those locations is USD $188,000.00 - $304,200.00 per year.
Certain roles may be eligible for benefits and other compensation. Find additional benefits and pay information here:
https://careers.microsoft.com/us/en/us-corporate-pay
This position will be open for a minimum of 5 days, with applications accepted on an ongoing basis until the position is filled.
Microsoft is an equal opportunity employer. All qualified applicants will receive consideration for employment without regard to age, ancestry, citizenship, color, family or medical care leave, gender identity or expression, genetic information, immigration status, marital status, medical condition, national origin, physical or mental disability, political affiliation, protected veteran or military status, race, ethnicity, religion, sex (including pregnancy), sexual orientation, or any other characteristic protected by applicable local laws, regulations and ordinances. If you need assistance with religious accommodations and/or a reasonable accommodation due to a disability during the application process, read more about requesting accommodations.

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About Microsoft

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Our infrastructure is comprised of a large global portfolio of more than 100 datacenters and 1 million servers. Our foundation is built upon and managed by a team of subject matter experts working to support services for more than 1 billion customers and 20 million businesses in over 90 countries worldwide. With environmental sustainability and optimization at the forefront of our datacenter design and operations, we continue to grow and evolve as we meet the ever-changing business demands that hold Microsoft as a world-class cloud provider.

Industry

Computer and computer peripheral equipment and software wholesalers

Company size

10,000+ Employees

Headquarters location

Redmond, WA, US

Year founded

1975

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