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Internship Quantum Technology Jobs (NOW HIRING)

Barrow Wise Consulting

Internship

MD ยท On-site

$15/hr

Research Emerging Technologies: Dive into the exciting world of Artificial Intelligence and Quantum Technology to keep us at the forefront of innovation. * Administrative Support: Provide high-level ...

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How much do internship quantum technology jobs pay per hour?

As of May 30, 2026, the average hourly pay for internship quantum technology in the United States is $17.44, according to ZipRecruiter salary data. Most workers in this role earn between $14.42 and $19.23 per hour, depending on experience, location, and employer.

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

To thrive in an Internship in Quantum Technology, you typically need a strong background in physics, mathematics, or engineering, often demonstrated by ongoing undergraduate or graduate studies in a relevant field. Familiarity with quantum programming languages (like Qiskit or Cirq), simulation tools, and lab equipment is highly valuable. Analytical thinking, problem-solving, and effective communication help interns excel in collaborative research environments. These skills and qualities are essential for tackling complex quantum challenges and contributing meaningfully to cutting-edge projects.

What types of projects can I expect to work on during a Quantum Technology internship?

As a Quantum Technology intern, you can expect to be involved in projects ranging from quantum algorithm development and quantum hardware testing to simulating quantum systems and contributing to research papers. Interns often work closely with experienced researchers, engineers, and software developers to support ongoing experiments or software tool development. The work environment is typically collaborative, with regular team meetings, mentorship, and opportunities to present your findings. These projects provide hands-on experience with cutting-edge quantum computing platforms and foster skills valuable for future roles in academia or industry.

What is an internship in quantum technology?

An internship in quantum technology is a temporary position, often for students or recent graduates, that provides hands-on experience working with quantum computing, quantum communication, or other quantum-related fields. Interns typically assist with research, software development, or lab work while learning from experts in the industry. These internships can take place in academic labs, technology companies, or specialized research institutes. The goal is to gain practical skills, deepen understanding of quantum concepts, and build professional networks for future careers.

What is the difference between Internship Quantum Technology vs Quantum Computing Intern?

AspectInternship Quantum TechnologyQuantum Computing Intern
Required CredentialsUndergraduate or graduate in physics, engineering, or related fieldsSimilar educational background, often with focus on computer science or physics
Work EnvironmentResearch labs, tech companies, startups working on quantum hardware and applicationsResearch centers, tech firms focusing on quantum algorithms and software development
Industry UsageApplied quantum hardware, sensors, and communication systemsQuantum software, algorithms, and simulation projects
Search & Comparison IntentUnderstanding roles in quantum hardware and applied techFocusing on software and algorithm development in quantum computing

Internship Quantum Technology typically involves hands-on work with quantum hardware, sensors, and communication systems, while Quantum Computing Internships focus on developing algorithms and software for quantum computers. Both roles require similar educational backgrounds but differ in their focus areas within the quantum industry.

More about Internship Quantum Technology jobs
What cities are hiring for Internship Quantum Technology jobs? Cities with the most Internship Quantum Technology job openings:
What are the most commonly searched types of Quantum Technology jobs? The most popular types of Quantum Technology jobs are:
What states have the most Internship Quantum Technology jobs? States with the most job openings for Internship Quantum Technology jobs include:
What job categories do people searching Internship Quantum Technology jobs look for? The top searched job categories for Internship Quantum Technology jobs are:
Internship Quantum Technology jobs near you
Infographic showing various Internship Quantum Technology job openings in the United States as of May 2026, with employment types broken down into 100% Full Time. Highlights an 100% In-person job distribution, with an average salary of $36,265 per year, or $17.4 per hour.
Quantum Calibrations Intern, Quantum Computing Services

Quantum Calibrations Intern, Quantum Computing Services

QuEra Computing, Inc.

Boston, MA โ€ข On-site

$16.25 - $21.75/hr

Full-time, Internship

Posted 11 days ago

Job description

Job Title: Intern, Quantum Calibrations, Quantum Computing Services
Job Type: Full-time, 3-6 months
Job Location: Boston, MA
Reports to: VP of Quantum Computing Services
Summary:
QuEra is seeking motivated interns to join our growing team focused on developing the calibration and performance characterization framework for QuEra's neutral-atom quantum computers. As an intern, you will collaborate with physicists, software engineers, and hardware specialists to design benchmarking protocols, build physics-informed models of device behavior, and develop predictive tools for real-time qubit state evolution.
This internship offers a unique opportunity to gain hands-on experience at the interface of quantum hardware and data science, contributing to the development of calibration and performance characterization frameworks for scalable, reliable neutral-atom quantum computers.
This role is part of QuEra's Quantum Computing Services team and is based at QuEra's Boston headquarters. The team's mission is to develop QuEra's neutral-atom technology into cutting-edge quantum computing products and services.
Core Responsibilities
  • Develop and test data analysis routines to fit, visualize, and interpret experimental data.
  • Design and execute device benchmarking and characterization experiments.
  • Build and apply Hamiltonian learning routines to infer effective system parameters from time-evolution data.
  • Develop predictive models for key performance metrics (gate fidelity, coherence, readout error) using time-series calibration history and machine learning methods.
  • Collaborate closely with physicists, engineers, and software developers to integrate your work into QuEra's operational stack.

Qualifications
Required
  • Foundational understanding of quantum mechanics and open quantum systems at the graduate level.
  • Experience designing and analyzing experiments involving quantum or physical systems
  • Strong programming skills in Python, including familiarity with libraries such as NumPy, SciPy, Pandas, and Matplotlib.
  • Enjoys hands-on experimentation, iteration, and uncovering structure in data.
  • Strong analytical, problem-solving, and communication skills.

Preferred
  • Familiarity with quantum gate characterization protocols (randomized benchmarking, process tomography, GST) and error budget decomposition.
  • Exposure to Hamiltonian learning, system identification, or quantum noise spectroscopy methods.
  • Experience applying machine learning (Gaussian processes, time-series models, or neural networks) to physical or experimental data.
  • Exposure to laboratory instrumentation, data acquisition, or experimental control systems.

Education & Experience
  • Currently pursuing or recently completed a Master's or PhD in Physics, Applied Physics, Computer Science, Electrical Engineering, Applied Mathematics, or a related quantitative field.

QuEra is committed to cultivating a diverse work environment and is proud to be an equal opportunity employer. We highly value diversity in our current and future employees and do not discriminate (including in our hiring and promotion practices) based on race, religion, color, national origin, gender, gender expression, sexual orientation, age, marital status, veteran status, disability status, or any other characteristic protected by law.

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