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Quantum Software Engineer Jobs in Alberta (NOW HIRING)

Quantum Software Engineer information

See Alberta salary details

$30.5K

$115.3K

$179K

How much do quantum software engineer jobs pay per year?

As of Jul 7, 2026, the average yearly pay for quantum software engineer in Alberta is $115,260.00, according to ZipRecruiter salary data. Most workers in this role earn between $87,500.00 and $140,000.00 per year, depending on experience, location, and employer.

What are the key skills and qualifications needed to thrive in the Quantum Software Engineer position, and why are they important?

To thrive as a Quantum Software Engineer, you need a deep understanding of quantum computing principles, proficiency in classical programming languages (such as Python or C++), and experience with quantum SDKs (like Qiskit or Cirq), often supported by a degree in computer science, physics, or a related field. Familiarity with simulators, cloud-based quantum platforms, and sometimes certifications in quantum programming are also highly valuable. Strong problem-solving abilities, collaboration skills, and adaptability help set excellent candidates apart. These skills and qualities are vital for building practical quantum applications and advancing technology in a rapidly evolving interdisciplinary field.

What are the typical daily responsibilities of a Quantum Software Engineer?

Quantum Software Engineers usually spend their days designing, coding, and testing quantum algorithms, often using specialized quantum software libraries and simulators. They collaborate closely with quantum physicists, classical software engineers, and researchers to translate theoretical concepts into efficient, practical solutions. Regular tasks also include debugging code, optimizing performance on quantum and hybrid systems, and staying updated with the latest advances in quantum hardware and software. Effective teamwork and ongoing learning are central to success in this dynamic, research-driven environment.

Are quantum engineers in demand?

Quantum engineers are in high demand due to the growing development of quantum computing and related technologies. Companies and research institutions seek professionals skilled in quantum algorithms, hardware, and software, often requiring knowledge of quantum programming languages like Qiskit or Cirq. The field offers strong job growth prospects for those with specialized skills and relevant certifications.

What does a quantum software engineer do?

A quantum software engineer develops algorithms and software to run on quantum computers, focusing on optimizing quantum circuits and error correction. They often work with quantum programming languages like Qiskit or Cirq and need a strong background in quantum mechanics, computer science, and programming. Their work supports advancements in quantum computing applications across various industries.

What engineers make $500,000?

Senior engineers in specialized fields such as software, aerospace, or petroleum engineering can earn $500,000 or more annually, especially with extensive experience, advanced skills, and leadership roles. High compensation often includes bonuses, stock options, or profit sharing, particularly in large corporations or high-demand industries.

What is a Quantum Software Engineer job?

A Quantum Software Engineer develops algorithms, software, and applications for quantum computers. They work with quantum programming languages like Qiskit, Cirq, or PennyLane to implement quantum algorithms that solve complex problems more efficiently than classical computers. Their role involves understanding quantum mechanics, optimizing quantum circuits, and collaborating with researchers to bridge the gap between theory and practical implementation.

Is Q-Ctrl a real company?

Q-Ctrl is a real company that specializes in developing software tools for quantum computing and quantum hardware control. It provides solutions to help researchers and engineers improve qubit performance and error correction. As a company, it often hires quantum software engineers with expertise in quantum algorithms and programming languages like Python and Qiskit.
What are popular job titles related to Quantum Software Engineer jobs in Alberta? For Quantum Software Engineer jobs in Alberta, the most frequently searched job titles are:
What job categories do people searching Quantum Software Engineer jobs in Alberta look for? The top searched job categories for Quantum Software Engineer jobs in Alberta are:
Postdoctoral Research Fellow - Reconfigurable Metasurfaces/Metamaterials and Silicon Photonics

Postdoctoral Research Fellow - Reconfigurable Metasurfaces/Metamaterials and Silicon Photonics

University of Alberta

Edmonton, AB • On-site

Full-time

Posted 4 days ago


Job description

This competition will be used to fill two positions

This position is a two-year term appointment, with the possibility of extension. The anticipated start date is September 2026.

Location - This role is in-person with onsite work at Nanoscale Optics Lab, University of Alberta, Edmonton

Position Summary

We are inviting applications for two Postdoctoral Research Fellow positions in the area of Reconfigurable Metasurfaces/Metamaterials and Silicon Photonics. This position is part of a cutting-edge research initiative at the Nanoscale Optics Lab at the University of Alberta, focused on developing next-generation nanophotonic platforms with the potential to impact quantum information technologies.

The University of Alberta acknowledges that we are located on Treaty 6 territory, and respects the histories, languages and cultures of First Nations, Metis, Inuit and all FirstPeoples of Canada, whose presence continues to enrich our vibrant community.

The University of Alberta is a community of knowledge seekers, change makers and world shapers who lead with purpose each and every day. We are home to over 14,000 faculty and staff, more than 40,000 students and a growing community of 300,000 alumni worldwide.

Your work will have a meaningful influence on a fascinating cross-section of people - from our students and community members, to our renowned researchers and innovators, making discoveries and generating solutions that make the world healthier, safer, stronger and more just. Learn more.

At the University of Alberta, we are committed to creating an inclusive and accessible hiring process for all candidates. If you require accommodations to participate in the interview process, please let us know at the time of booking your interview and we will make every effort to accommodate your needs.

We thank all applicants for their interest; however, only those individuals selected for an interview will be contacted.

All University employees have a responsibility to foster a workplace that prioritizes safety in all its forms-physical, cultural, and psychological. This is achieved by promoting a safe environment, adhering to all safety laws, policies and procedures, completing all required safety training, identifying hazards and implementing controls, reporting incidents, and contributing to a culture of belonging and respect, while endeavoring to ensure that all colleagues feel valued and safe to express their thoughts, perspectives and concerns.

The University of Alberta is committed to creating a university community where everyone feels valued, barriers to success are removed, and thriving connections are fostered. We welcome applications from all qualified persons. We encourage women, First Nations, Metis and Inuit persons, members of visible minority groups, persons with disabilities, persons of any sexual orientation or gender identity and expression, and all those who may contribute to the further diversification of ideas and the University to apply.

L'Universite de l'Alberta s'engage a creer une communaute universitaire ou chaque personne se sent valorisee, ou les obstacles a la reussite sont elimines et ou des connexions enrichissantes peuvent se developper. Nous accueillons les demandes de toutes les personnes qualifiees. Nous encourageons les femmes; Premieres nations, Metis et Inuits; membres des groupes minoritaires visibles; personnes handicapees; personnes de toute orientation sexuelle ou identite et expression de genre; et toutes les personnes qui peuvent contribuer a la diversification des idees et a l'universite a postuler.
The Faculty of Engineering is one of North America's top engineering schools, known for innovation, collaboration, and impact. It fosters an exceptional student experience through a holistic approach that combines technical excellence with emotional intelligence. With strong community engagement, interdisciplinary research, and a commitment to societal well-being, the faculty prepares students to lead in a rapidly evolving, global engineering landscape.

Required Qualifications:

  • A PhD (or near completion) in Physics, Electrical Engineering, Materials Science, or a related field.
  • Experience with nanophotonics, metasurfaces/metamaterials, silicon photonics and/or quantum optics.
  • Experience with nanofabrication, cleanroom environments and ultrahigh vacuum vapour deposition and growth systems. 
  • Skills in electromagnetic simulation, software-hardware interfacing, or optical characterization techniques.
  • Skills in programming hardware instrumentation using any of the following languages: C, C#, Python, Labview, Matlab
  • A strong publication track record and the ability to work independently and collaboratively.
  • Experience with chalcogenide semiconductors, phase change materials and nano-opto-mechanical systems is an asset
     

Application Instructions

Click "Apply Now" to submit the following in a single PDF document: 

  • Cover Letter (Please address relevant expertise, training and career goals.) 
  • Curriculum Vitae 
  • List of Publications 
  • References (Please provide the names and contact information of two references. Reference letters are not required as part of the initial application and will only be requested at a later stage of the recruitment process, if required.)

Applications will be reviewed on a rolling basis until the position is filled. For more information, please contact Dr. Behrad Gholipour (bgholipo@ualberta.ca). 

We look forward to hearing from outstanding candidates passionate about advancing the frontier of nanoscale optics.

This position has a comprehensive benefits package.

The terms and conditions of this appointment are governed by the Collective Agreement between the Board of Governors of the University of Alberta and the Postdoctoral Fellows Association of the University of Alberta.
 

Working for the Faculty of Engineering - Department of Electrical and Computer Engineering

The Department of Electrical and Computer Engineering at the University of Alberta is a leader in research and innovation. In our nearly 100 years of history, ECE researchers have contributed many important technologies to the world. From the development of sonar during the First World War to industry-leading breakthroughs in lab-on-a-chip technologies, the developments that have come from the minds of ECE researchers are countless.

In recent years, ECE has become a world leader in nanotechnology research and has a strong partnership with one of the most advanced nanotechnology research centres in North America, the National Institute for Nanotechnology. These developments in miniaturization influence much of our research as it continues to grow and help shape the future.

ECE encompasses twelve primary research areas, but the interdisciplinary nature of engineering means that many of our faculty, postdoctoral fellows, and graduate students engage in collaborative efforts across multiple areas and with colleagues from different departments and faculties. This approach results in a broad, interdisciplinary perspective that drives our original, groundbreaking research.

Project Overview:
The successful candidate will work on the design/simulation, fabrication, and experimental characterization of reconfigurable metasurfaces and metamaterials and/or silicon photonic integrated circuits aimed at controlling light-matter interactions down to the quantum level. Applications include quantum emitters, quantum sensing, and integrated quantum and neuromorphic photonic circuits on waveguide and optical fibre platforms.

The position offers access to state-of-the-art nanofabrication infrastructure at the Edmonton nanofab and complex materials growth at the Alberta Metal-Chalcogenide Manufacturing Facility (AM2F). The position will also have access to a myriad of classical and quantum optics characterization capabilities alongside the opportunity to collaborate with leading experts in photonics, quantum technologies, and materials science across Canada, the US and beyond.