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Ibm Quantum Jobs (NOW HIRING)

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How much do ibm quantum jobs pay per hour?

As of Jul 12, 2026, the average hourly pay for ibm quantum in the United States is $53.64, according to ZipRecruiter salary data. Most workers in this role earn between $46.39 and $59.13 per hour, depending on experience, location, and employer.

What are IBM Quantum jobs?

IBM Quantum jobs refer to roles and positions within IBM that focus on the development, research, and application of quantum computing technologies. Employees in these roles may work on quantum hardware, algorithms, software platforms, or help customers and researchers leverage IBM's quantum computing resources. IBM Quantum jobs can include quantum researchers, software engineers, application scientists, and technical consultants, among others. These positions typically require strong backgrounds in physics, computer science, mathematics, or related fields, and offer the opportunity to work at the forefront of quantum technology innovation.

What are some common challenges faced by professionals working on IBM Quantum projects?

Professionals working on IBM Quantum projects often encounter the challenge of staying current with rapid advancements in quantum computing technology, which requires continuous learning and adaptability. Collaborating across multidisciplinary teams—including physicists, engineers, and software developers—can also demand strong communication skills and flexibility. Additionally, the complexity of quantum algorithms and hardware can make troubleshooting and debugging more intensive than in classical computing roles. However, overcoming these challenges offers significant opportunities for growth and innovation in a cutting-edge field.

What are the key skills and qualifications needed to thrive as an IBM Quantum Researcher, and why are they important?

To thrive as an IBM Quantum Researcher, you need a strong background in quantum mechanics, computer science, mathematics, and often a Ph.D. in a related field. Proficiency with quantum programming languages (like Qiskit), experience with quantum simulators and hardware, and familiarity with high-performance computing systems are typically required. Critical thinking, problem-solving, and effective collaboration are valuable soft skills that help in pioneering new research and working in interdisciplinary teams. These combined skills enable researchers to innovate, solve complex quantum problems, and contribute to advancements in quantum computing technology.

What is the difference between Ibm Quantum vs Quantum Software Engineer?

AspectIbm QuantumQuantum Software Engineer
Required CredentialsPhysics or Computer Science degree, knowledge of quantum mechanicsComputer Science or related degree, programming skills in quantum languages
Work EnvironmentResearch labs, tech companies, collaborative teamsSoftware development teams, research institutions, tech firms
Industry UsageQuantum computing research and developmentDeveloping quantum algorithms and software applications

While Ibm Quantum focuses on research and development of quantum hardware and systems, Quantum Software Engineers primarily develop software and algorithms for quantum computers. Both roles require a strong background in computer science or physics, but Ibm Quantum roles lean more towards hardware and research, whereas Quantum Software Engineers focus on software development and programming in quantum languages.

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What cities are hiring for Ibm Quantum jobs? Cities with the most Ibm Quantum job openings:
What are the most commonly searched types of Ibm Quantum jobs? The most popular types of Ibm Quantum jobs are:
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Infographic showing various Ibm Quantum job openings in the United States as of July 2026, with employment types broken down into 44% Full Time, 54% Part Time, and 2% Contract. Highlights an 96% Physical, 1% Hybrid, and 3% Remote job distribution, with an average salary of $111,573 per year, or $53.6 per hour.

Senior Quantum Computational Materials Scientist, US

Phasecraft

Washington, DC • On-site

$120K - $175K/yr

Full-time

Medical, Dental, Vision, Life, Retirement, PTO

Re-posted 22 days ago


Job description

Phasecraft is the quantum algorithms company. We are building the mathematical foundations for quantum computing applications that solve real-world problems. Founded in 2019 by Toby Cubitt, Ashley Montanaro and John Morton, we are based in London and Bristol in the UK and opened an office in Washington DC in 2024, led by Steve Flammia. In 2025 we completed a $34m Series B funding round co-led by Plural, existing investor Playground Global, and Novo Holdings' Quantum Fund in its first direct quantum software investment.
Phasecraft's unprecedented access to today's best quantum computers - through partnerships with Google, IBM, Quantinuum and QuEra - provides us with unique opportunities to develop foundational IP, inform the development of next-generation quantum hardware, and accelerate commercialization of high-value breakthroughs.
One of the key applications of Phasecraft's quantum algorithms is to modelling materials and molecular systems, where we have demonstrated significant reductions in cost compared with the state-of-the-art.
On the back of these breakthroughs, we are now looking to hire a Senior Quantum Computational Materials Scientist to join our team in Washington DC. In this newly created role, you will play a key role in guiding and coordinating the materials team's research efforts in the US, working closely with the Head of the US office and the materials team lead at Phasecraft.
The ideal candidate will have extensive experience of research in the theory and application of computational techniques to materials or chemistry simulation, with an interest in applying algorithms for quantum computers to computational materials science. Their work will contribute to Phasecraft's goal of developing quantum algorithms for near-term quantum computers, and may encompass topics such as algorithm design, optimization and implementation, resource analysis, classical and quantum simulation benchmarking. They will have the opportunity to direct and grow a portfolio of research activity across the breadth of Phasecraft's interests.
Job Description
  • Take the role of a senior member of a talented team of scientists undertaking theoretical and applied research on near-term quantum computing algorithms, applications and enabling theoretical technologies.
  • Take initiative within the team to deliver publications, presentations, patent applications and similar resulting from the research.
  • Be a focal point for Phasecraft's interaction with stakeholders on US based collaborations applying quantum computing to materials simulation and discovery.
  • Contribute to new research directions ensuring alignment with the company's overall science strategy.
  • Work within the team to promote an environment of collaboration across a small international team made up of full-time staff and affiliated PhD students.
  • Other activities as required to support the growth and success of Phasecraft.

Requirements
Essential Criteria
  • Expertise in applied and theoretical computational materials science or closely related field.
  • PhD in (ab initio) electronic structure methods, theory and computation, Chemistry, Physics, Materials Science, or a closely related field.
  • Proven track record of working independently on research projects.
  • Deep expertise and an excellent publication track-record in relevant discipline.
  • Excellent written and verbal communication skills and the ability to disseminate research results to technical and non-technical audiences.
  • A deep understanding of the requirements of different funding sources, and the ability to lead efforts and independently write effective grant applications.
  • Flexibility to work across different aspects of quantum algorithms, and to work on other tasks required to support the growth and success of the company.
  • An interest in near-term quantum computing.

Desirable criteria
  • Experience in materials discovery and use of machine learning methods to enhance workflows.
  • Experience in DFT++ approaches, such as DMFT, DMET, GW etc.
  • Experience in high throughput materials screening applications.
  • Demonstrable experience in leading multiple complex and collaborative scientific research projects.
  • Experience in developing and growing a team of scientists, promoting an appropriate culture for continuous improvement and knowledge exchange.
  • Enthusiasm for learning and novel research.

Benefits
  • The annual compensation range for this role is $120,000 - $175,000, depending on experience.
  • Health, Vision, Dental, Life Insurance.
  • 401(k) Plan with company matching.
  • Unlimited annual leave.