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Quantum Error Correction Jobs (NOW HIRING)

Nvidia

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$15 - $20/hr

We are looking for a Quantum Error Correction Research Scientist Intern to develop automated, high-performance quantum error correction research pipelines spanning both code discovery and decoder ...

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How much do quantum error correction jobs pay per hour?

As of May 31, 2026, the average hourly pay for quantum error correction in the United States is $17.27, according to ZipRecruiter salary data. Most workers in this role earn between $15.38 and $18.51 per hour, depending on experience, location, and employer.

What are the key skills and qualifications needed to thrive as a Quantum Error Correction Specialist, and why are they important?

To thrive as a Quantum Error Correction Specialist, you need a solid background in quantum mechanics, linear algebra, and information theory, typically supported by an advanced degree in physics, computer science, or a related field. Familiarity with quantum computing platforms (such as IBM Qiskit), coding theory, and simulation tools is essential, along with experience in programming languages like Python or C++. Strong analytical thinking, problem-solving abilities, and effective collaboration skills help professionals excel in this highly technical and interdisciplinary area. These skills are crucial for developing robust quantum algorithms and error-correcting codes that enable practical and scalable quantum computing.

What are some common challenges faced by professionals working in Quantum Error Correction, and how do teams typically address them?

Professionals in Quantum Error Correction often face challenges related to the fragility of quantum states and the complexity of implementing error-correcting codes on current hardware. These difficulties require close collaboration with physicists, engineers, and computer scientists to design, test, and refine algorithms that mitigate errors while maintaining computational efficiency. Teams typically operate in interdisciplinary environments, using simulation tools and experimental setups to iteratively improve error rates. Regular communication and knowledge sharing are key, given the rapidly evolving nature of the field.

What is quantum error correction?

Quantum error correction is a field within quantum computing that focuses on protecting quantum information from errors caused by decoherence, noise, and other quantum phenomena. Unlike classical error correction, quantum error correction must deal with the unique challenges of quantum mechanics, such as superposition and entanglement. It uses specialized codes and algorithms to detect and correct errors without directly measuring the quantum state, thereby preserving the integrity of quantum data. This is essential for building reliable and scalable quantum computers.

What is the difference between Quantum Error Correction vs Quantum Computing Engineer?

AspectQuantum Error CorrectionQuantum Computing Engineer
Required CredentialsPhysics or quantum information science degrees, certifications in quantum technologiesPhysics, computer science, or electrical engineering degrees, programming certifications
Work EnvironmentResearch labs, quantum hardware development, academic institutionsTech companies, research labs, startups developing quantum algorithms and hardware
Industry UsageFocuses on developing methods to detect and correct quantum errorsDesigns, builds, and tests quantum algorithms and hardware systems

Quantum Error Correction specialists focus on developing techniques to detect and fix errors in quantum systems, ensuring reliable quantum information processing. Quantum Computing Engineers design and implement quantum algorithms and hardware, often utilizing error correction methods. While both roles require knowledge of quantum mechanics, their primary responsibilities and work environments differ significantly.

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Quantum Error Correction jobs near you
Infographic showing various Quantum Error Correction job openings in the United States as of May 2026, with employment types broken down into 81% Full Time, 17% Part Time, and 2% Contract. Highlights an 96% Physical, 1% Hybrid, and 3% Remote job distribution, with an average salary of $35,920 per year, or $17.3 per hour.
Quantum Error Correction Scientist

Quantum Error Correction Scientist

Johns Hopkins Applied Physics Laboratory (APL)

Laurel, MD

Full-time

Medical, Dental, Vision, Life, Retirement, PTO

Posted 5 days ago

Johns Hopkins Applied Physics Laboratory rating

9.9

Company rating: 9.9 out of 10

Based on 5 frontline employees who took The Breakroom Quiz

1st of 56 rated research

Job description

Description

Are you a researcher with expertise in quantum error correction and other approaches for achieving error-robustness in quantum computing?

Are you looking to take part in impactful research in quantum information science?

Do you want to work with a vibrant team of experimental and theoretical physicists?

If so, we’re looking for someone like you to join our team at APL.

We are seeking a creative quantum scientist to help us grow new projects and mature existing ones in the field of quantum error correction. As a member of our team, you’ll contribute to the development and evaluation of quantum error correcting codes (QECCs), working closely with theorists and experimentalists to bridge knowledge gaps and address practical limitations of quantum error correction on current and future hardware platforms. You will join our hardworking team of quantum scientists who are passionate about building new and exciting solutions to expand the state-of-the-art in quantum science. We strive to foster an environment of collaboration and teamwork. Our team is committed to integrity and honesty, and values substance and innovation.

As a Quantum Error Correction Scientist at APL you will...

  • Investigate, improve, and design QECCs using physically relevant noise models and other hardware characteristics.
  • Perform modeling and trade-space studies of QECCs.
  • Identify avenues for optimization and scalability of QECCs for specific quantum technology platforms.
  • Investigate the propagation of low-level physical/device properties to errors in high-level logical operations and vice versa.
  • Work with our team of experimentalists to identify and measure relevant performance parameters of physical qubits and QECC primitives that can be extrapolated to estimate QECC performance.
  • Investigate the influence/impact of QEC performance on quantum algorithms.

Qualifications

You will meet our minimum qualifications if you…

  • Have a PhD in Physics, Mathematics, Computer Science, or closely related field
  • Have 2+ years of post-doctoral (or equivalent) experience in quantum information science.
  • Have experience with traditional QECCs, e.g., repetition code and surface codes.
  • Have experience simulating and/or estimating resources costs for quantum error correcting codes.
  • Have experience with programming and software development.
  • Have a proved record of research accomplishments and publications in the field of quantum information science.
  • Are willing to occasionally travel to sponsor sites, conferences, workshops.
  • Are able to obtain an Interim Secret level security clearance by your start date and can ultimately obtain TS/SCI+poly level clearance. If selected, you will be subject to a government security clearance investigation and must meet the requirements for access to classified information. Eligibility requirements include U.S. citizenship.

You will go above and beyond our minimum requirements if you…

  • Have deep knowledge of different QEC schemes and trade-offs.
  • Have experience with decoders and logical error simulations.
  • Have experience with physical-level and/or device noise modeling.
  • Have experience with quantum characterization, verification, and validation protocols such as randomized benchmarking.
  • Have extensive experience with existing QEC simulator tools and/or resource estimation tools.
  • Have experience with additional error protection schemes, such as dynamical decoupling and/or quantum error mitigation.
  • Have experience with high-performance computing.
  • Have experience working with experimentalists.
  • Have a proven record of impactful research accomplishments.
  • Have an active TS/SCI w/ Polygraph security clearance.

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About Us

Why Work at APL?

The Johns Hopkins University Applied Physics Laboratory (APL) brings world-class expertise to our nation’s most critical defense, security, space and science challenges. While we are dedicated to solving complex challenges and pioneering new technologies, what makes us truly outstanding is our culture. We offer a vibrant, welcoming atmosphere where you can bring your authentic self to work, continue to grow, and build strong connections with inspiring teammates.

At APL, we celebrate our differences of perspectives and encourage creativity and bold, new ideas. Our employees enjoy generous benefits, including a robust education assistance program, unparalleled retirement contributions, and a healthy work/life balance. APL’s campus is located in the Baltimore-Washington metro area. Learn more about our career opportunities at  .

All qualified applicants will receive consideration for employment without regard to race, creed, color, religion, sex, gender identity or expression, sexual orientation, national origin, age, physical or mental disability, genetic information, veteran status, occupation, marital or familial status, political opinion, personal appearance, or any other characteristic protected by applicable law. APL is committed to providing reasonable accommodation to individuals of all abilities, including those with disabilities. If you require a reasonable accommodation to participate in any part of the hiring process, please contact  .

The referenced pay range is based on JHU APL’s good faith belief at the time of posting. Actual compensation may vary based on factors such as geographic location, work experience, market conditions, education/training and skill level with consideration for internal parity. For salaried employees scheduled to work less than 40 hours per week, annual salary will be prorated based on the number of hours worked. APL may offer bonuses or other forms of compensation per internal policy and/or contractual designation. Additional compensation may be provided in the form of a sign-on bonus, relocation benefits, locality allowance or discretionary payments for exceptional performance. APL provides eligible staff with a comprehensive benefits package including retirement plans, paid time off, medical, dental, vision, life insurance, short-term disability, long-term disability, flexible spending accounts, education assistance, and training and development. Applications are accepted on a rolling basis.


Minimum Rate
$105,000 Annually
Maximum Rate
$290,000 Annually

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