Quantum Computing

Master of Science in Physics

Scientist working in lab

Gain advanced conceptual, mathematical, and experimental knowledge of quantum computing to promote the development of this future technology with UW–Madison’s Master of Science in Physics: Quantum Computing.


Is this program right for you?

Governments and private companies around the world are increasingly investing in quantum computing as the field continues to develop this promising technology. The University of Wisconsin–Madison’s Master of Science in Physics: Quantum Computing is the first graduate degree of its kind in the U.S. Our program serves as the premier training ground for students to evaluate, synthesize, and solve current challenges in the physics of quantum computing.

UW–Madison’s Physics Department has unparalleled expertise and research facilities. Through intensive face-to-face coursework and laboratory training research, your cohort will work together to understand the background quantum theory and its application to quantum computing technology.

The Department of Physics also has deep connections to tech giants like Google, Microsoft, and Intel, and we have collaborated with several of them to conduct cutting-edge research projects. These giants of industry hire many of our advanced physics graduates.

When you graduate from UW–Madison’s premier quantum physics graduate program, you embark with the skills, credentials, and connections to seek employment opportunities from the leaders in quantum theory, technology, and computing.

Is this program right for you?

Governments and private companies around the world are increasingly investing in quantum computing as the field continues to develop this promising technology. The University of Wisconsin–Madison’s Master of Science in Physics: Quantum Computing is the first graduate degree of its kind in the U.S. Our program serves as the premier training ground for students to evaluate, synthesize, and solve current challenges in the physics of quantum computing.

UW–Madison’s Physics Department has unparalleled expertise and research facilities. Through intensive face-to-face coursework and laboratory training research, your cohort will work together to understand the background quantum theory and its application to quantum computing technology.

The Department of Physics also has deep connections to tech giants like Google, Microsoft, and Intel, and we have collaborated with several of them to conduct cutting-edge research projects. These giants of industry hire many of our advanced physics graduates.

When you graduate from UW–Madison’s premier quantum physics graduate program, you embark with the skills, credentials, and connections to seek employment opportunities from the leaders in quantum theory, technology, and computing.

Admissions Requirements

All applicants must:

  • Have a bachelor’s degree in physics or a closely related STEM field.
  • Have a minimum GPA of 3.0 on a 4.0 scale.
  • Submit GRE General test scores. For score reporting, use UW–Madison institution code 1846.
  • Non-native English speakers must take the TOEFL (minimum score of 92, internet version) or IELTS (minimum score of 7.0) exam. For score reporting, use UW–Madison institution code 1846.

To apply:

  • Online application.
  • Official transcripts.
  • CV/Resume.
  • Three letters of recommendation.
  • Personal statement.

Connect with us

American Physical Society Graduate School Fair

March 02 - 06
Join the University of Wisconsin–Madison at Future of Physics Days in Denver! Hosted by the American Physical Society, this grad fair is a great opportunity to learn all about our graduate programs.

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Program Highlights

  • UW–Madison’s Master of Science in Physics: Quantum Computing program is the first of its kind. It serves as the training ground for students to evaluate and solve current challenges in quantum computing.
  • Our program is accelerated, so you complete your degree in just one year.
  • Quantum Computing is an emerging, dynamic field, so you are on the forefront of discovery at UW—a prestigious research university.

How You'll Learn

  • Twelve months of full-time study on campus to earn your degree.
  • Attend intensive face-to-face instructional courses.
  • Experience one-on-one contact with faculty.
  • Carry out experiments in a laboratory setting.

Sample Curriculum

Fall Semester

  • Introduction to Quantum Mechanics or Quantum Mechanics
  • Thermal Physics or Statistical Mechanics
  • Introduction to Quantum Computing Physics Elective

Spring Semester

  • Solid State Physics or Advanced Solid State Physics
  • Atomic and Quantum Physics or Introduction to Atomic Structure
  • Advanced Quantum Computing
  • Physics Elective

Summer Semester

  • Quantum Computing Laboratory
  • Directed Study

**Suggested curriculum

Ready to learn more about Quantum Computing?
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Connect with our enrollment coaches

Our friendly, knowledgeable enrollment coaches are here to answer your questions. Contact an enrollment coach to:

  • Learn how to make this program work with your life/schedule
  • Verify credit transfers
  • Get help with your application
  • Determine if financial aid is available

Visit with our coaches on campus or at an upcoming student fair in your area. Search student fairs & events

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