Building a Quantum Engineering Undergraduate Program

Contribution: A roadmap is provided for building a quantum engineering education program to satisfy U.S. national and international workforce needs. Background: The rapidly growing quantum information science and engineering (QISE) industry will require both quantum-aware and quantum-proficient engi...

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Vydáno v:IEEE transactions on education Ročník 65; číslo 2; s. 220 - 242
Hlavní autoři: Asfaw, Abraham, Blais, Alexandre, Brown, Kenneth R., Candelaria, Jonathan, Cantwell, Christopher, Carr, Lincoln D., Combes, Joshua, Debroy, Dripto M., Donohue, John M., Economou, Sophia E., Edwards, Emily, Fox, Michael F. J., Girvin, Steven M., Ho, Alan, Hurst, Hilary M., Jacob, Zubin, Johnson, Blake R., Johnston-Halperin, Ezekiel, Joynt, Robert, Kapit, Eliot, Klein-Seetharaman, Judith, Laforest, Martin, Lewandowski, H. J., Lynn, Theresa W., McRae, Corey Rae H., Merzbacher, Celia, Michalakis, Spyridon, Narang, Prineha, Oliver, William D., Palsberg, Jens, Pappas, David P., Raymer, Michael G., Reilly, David J., Saffman, Mark, Searles, Thomas A., Shapiro, Jeffrey H., Singh, Chandralekha
Médium: Journal Article
Jazyk:angličtina
Vydáno: New York IEEE 01.05.2022
Institute of Electrical and Electronics Engineers, Inc
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Témata:
Accessibility
Best practice
Colleges & universities
Community Colleges
Computer Science Education
Computer Software
Education
Electronics
Engineering
Engineering Education
Engineers
Higher Education
Industries
Instructional Design
Labor Needs
Majors (Students)
MATHEMATICS AND COMPUTING
Military Schools
Nanofabrication
Optics
Program Development
Quantum computing
Quantum engineering
quantum information science (QIS)
Quantum Mechanics
Quantum phenomena
science
Science - general
Sensors
STEM Education
Technical education
Training
undergraduate education
Undergraduate Students
US Government
Workshops
ISSN:0018-9359, 1557-9638
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Abstract Contribution: A roadmap is provided for building a quantum engineering education program to satisfy U.S. national and international workforce needs. Background: The rapidly growing quantum information science and engineering (QISE) industry will require both quantum-aware and quantum-proficient engineers at the bachelor's level. Research Question: What is the best way to provide a flexible framework that can be tailored for the full academic ecosystem? Methodology: A workshop of 480 QISE researchers from across academia, government, industry, and national laboratories was convened to draw on best practices; representative authors developed this roadmap. Findings: 1) For quantum-aware engineers, design of a first quantum engineering course, accessible to all STEM students, is described; 2) for the education and training of quantum-proficient engineers, both a quantum engineering minor accessible to all STEM majors, and a quantum track directly integrated into individual engineering majors are detailed, requiring only three to four newly developed courses complementing existing STEM classes; 3) a conceptual QISE course for implementation at any postsecondary institution, including community colleges and military schools, is delineated; 4) QISE presents extraordinary opportunities to work toward rectifying issues of inclusivity and equity that continue to be pervasive within engineering. A plan to do so is presented, as well as how quantum engineering education offers an excellent set of education research opportunities; and 5) a hands-on training plan on quantum hardware is outlined, a key component of any quantum engineering program, with a variety of technologies, including optics, atoms and ions, cryogenic and solid-state technologies, nanofabrication, and control and readout electronics.
AbstractList Contribution: A roadmap is provided for building a quantum engineering education program to satisfy U.S. national and international workforce needs. Background: The rapidly growing quantum information science and engineering (QISE) industry will require both quantum-aware and quantum-proficient engineers at the bachelor's level. Research Question: What is the best way to provide a flexible framework that can be tailored for the full academic ecosystem? Methodology: A workshop of 480 QISE researchers from across academia, government, industry, and national laboratories was convened to draw on best practices; representative authors developed this roadmap. Findings: 1) For quantum-aware engineers, design of a first quantum engineering course, accessible to all STEM students, is described; 2) for the education and training of quantum-proficient engineers, both a quantum engineering minor accessible to all STEM majors, and a quantum track directly integrated into individual engineering majors are detailed, requiring only three to four newly developed courses complementing existing STEM classes; 3) a conceptual QISE course for implementation at any postsecondary institution, including community colleges and military schools, is delineated; 4) QISE presents extraordinary opportunities to work toward rectifying issues of inclusivity and equity that continue to be pervasive within engineering. A plan to do so is presented, as well as how quantum engineering education offers an excellent set of education research opportunities; and 5) a hands-on training plan on quantum hardware is outlined, a key component of any quantum engineering program, with a variety of technologies, including optics, atoms and ions, cryogenic and solid-state technologies, nanofabrication, and control and readout electronics.
A roadmap is provided for building a quantum engineering education program to satisfy U.S. national and international workforce needs. The rapidly growing quantum information science and engineering (QISE) industry will require both quantum-aware and quantum-proficient engineers at the bachelor’s level. What is the best way to provide a flexible framework that can be tailored for the full academic ecosystem? A workshop of 480 QISE researchers from across academia, government, industry, and national laboratories was convened to draw on best practices; representative authors developed this roadmap. 1) For quantum-aware engineers, design of a first quantum engineering course, accessible to all STEM students, is described; 2) for the education and training of quantum-proficient engineers, both a quantum engineering minor accessible to all STEM majors, and a quantum track directly integrated into individual engineering majors are detailed, requiring only three to four newly developed courses complementing existing STEM classes; 3) a conceptual QISE course for implementation at any postsecondary institution, including community colleges and military schools, is delineated; 4) QISE presents extraordinary opportunities to work toward rectifying issues of inclusivity and equity that continue to be pervasive within engineering. A plan to do so is presented, as well as how quantum engineering education offers an excellent set of education research opportunities; and 5) a hands-on training plan on quantum hardware is outlined, a key component of any quantum engineering program, with a variety of technologies, including optics, atoms and ions, cryogenic and solid-state technologies, nanofabrication, and control and readout electronics.
Audience Two Year Colleges
Higher Education
Postsecondary Education
Author Merzbacher, Celia
Saffman, Mark
Brown, Kenneth R.
Candelaria, Jonathan
Hurst, Hilary M.
Johnston-Halperin, Ezekiel
Klein-Seetharaman, Judith
Palsberg, Jens
Pappas, David P.
Ho, Alan
Joynt, Robert
Narang, Prineha
Blais, Alexandre
Edwards, Emily
Fox, Michael F. J.
Economou, Sophia E.
Combes, Joshua
Donohue, John M.
Johnson, Blake R.
Laforest, Martin
Debroy, Dripto M.
Jacob, Zubin
McRae, Corey Rae H.
Oliver, William D.
Asfaw, Abraham
Shapiro, Jeffrey H.
Cantwell, Christopher
Kapit, Eliot
Michalakis, Spyridon
Lewandowski, H. J.
Searles, Thomas A.
Reilly, David J.
Girvin, Steven M.
Raymer, Michael G.
Carr, Lincoln D.
Singh, Chandralekha
Lynn, Theresa W.
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  givenname: Theresa W.
  surname: Lynn
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  organization: Department of Physics, Harvey Mudd College, Claremont, CA, USA
– sequence: 25
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  givenname: Jeffrey H.
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– sequence: 37
  givenname: Chandralekha
  surname: Singh
  fullname: Singh, Chandralekha
  organization: Department of Physics and Astronomy, University of Pittsburgh, Pittsburgh, PA, USA
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Snippet Contribution: A roadmap is provided for building a quantum engineering education program to satisfy U.S. national and international workforce needs....
A roadmap is provided for building a quantum engineering education program to satisfy U.S. national and international workforce needs. The rapidly growing...
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SubjectTerms Accessibility
Best practice
Colleges & universities
Community Colleges
Computer Science Education
Computer Software
Education
Electronics
Engineering
Engineering Education
Engineers
Higher Education
Industries
Instructional Design
Labor Needs
Majors (Students)
MATHEMATICS AND COMPUTING
Military Schools
Nanofabrication
Optics
Program Development
Quantum computing
Quantum engineering
quantum information science (QIS)
Quantum Mechanics
Quantum phenomena
science
Science - general
Sensors
STEM Education
Technical education
Training
undergraduate education
Undergraduate Students
US Government
Workshops
Title Building a Quantum Engineering Undergraduate Program
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https://www.osti.gov/biblio/1866316
Volume 65
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