George Mason launches new MS in quantum science and engineering

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George Mason University has launched a new master of science in quantum science and engineering, the first program of its kind in Virginia and one of only a handful in the United States. Designed to meet growing workforce demand in one of the world's fastest-evolving technology sectors, the program prepares students to apply quantum technologies across disciplines including mathematics, physics, computing, engineering, cybersecurity, chemistry, and biology.

Designed to meet growing workforce demand in one of the world's fastest-evolving technology sectors, the MS program prepares students to apply quantum technologies across disciplines. Photo provided

Quantum technology is transforming industries ranging from computing and cybersecurity to healthcare and energy. As investment in quantum research and development continues to grow worldwide, so does the need for professionals who can bridge traditional STEM fields with emerging quantum technologies.

The degree was developed in direct response to industry demand for a workforce that can bridge traditional disciplines and emerging quantum technologies.

"When we talked to industry, they told us they want experts in STEM fields who also have knowledge of quantum science and engineering," said Jessica Rosenberg, professor in the Department of Physics and Astronomy and director of education for the Quantum Science and Engineering Center.

Reflecting the inherently interdisciplinary nature of the field, students enter the program with backgrounds in STEM disciplines, such as mathematics, physics, computer science, or engineering, and build quantum expertise alongside domain-specific knowledge. The curriculum integrates foundational training in quantum information science and engineering while allowing students to deepen their applied-area expertise through electives in external disciplines.

The master's program focuses on three key areas: quantum computing and algorithms, quantum communications and security, and quantum sensing and measurement technologies.

Rather than training students solely as quantum specialists, the program emphasizes preparing them to apply quantum tools within their primary fields.

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"Our goal is not to train pure quantum scientists," said Michael Jarret, assistant professor in the Department of Mathematical Sciences and Department of Computer Science. "We're training professionals who can operate between domains-people who can connect quantum concepts to real-world applications."

A defining feature of the program is its emphasis on experiential learning. Students complete a master's research project, often in collaboration with industry partners or research laboratories, gaining real-world experience in quantum applications and emerging technologies.

This flexible structure allows the program to evolve alongside the field itself. "As the quantum industry grows over the next decade, this degree is designed to adapt with it," Jarret added.

Through this approach, graduates will be well-positioned to evaluate and implement quantum solutions in both academic and applied settings while also communicating complex concepts to diverse audiences. The program is designed to be accessible to a wide range of learners, from current undergraduates to working professionals.

George Mason also offers a Bachelor's-to-Accelerated Master's (BAM) pathway, enabling qualified undergraduates at George Mason to begin working toward the degree during their junior or senior years. At the same time, the program welcomes students entering directly into the master's, creating opportunities for both early-career and returning learners to engage with quantum technologies.

As quantum technologies continue to reshape fields from computing and cybersecurity to healthcare and energy, programs like George Mason's MS in quantum science and engineering are critical to building the next generation of talent.

Learn about the program

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