• Corpus ID: 238198450

Quantum Undergraduate Education and Scientific Training

@inproceedings{Perron2021QuantumUE,
  title={Quantum Undergraduate Education and Scientific Training},
  author={Justin K. Perron and Charles DeLeone and Shahed Sharif and Tom Carter and Joshua M. Grossman and Gina Passante and Joshua Sack},
  year={2021}
}
Justin K. Perron, Charles DeLeone, Shahed Sharif, Tom Carter, Joshua M. Grossman, Gina Passante, and Joshua Sack Department of Physics, California State University San Marcos Department of Mathematics, California State University San Marcos Department of Computer Science, California State University Stanislaus Department of Physics, St. Mary’s College of Maryland Department of Physics, California State University Fullerton Department of Mathematics and Statistics, California State University… 
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References

SHOWING 1-10 OF 64 REFERENCES

Undergraduate computational physics projects on quantum computing

Computational projects on quantum computing suitable for students in a junior-level quantum mechanics course are described. In these projects students write their own programs to simulate quantum

An Introduction to Quantum Programming in Quipper

Many of Quipper's language features are illustrated by developing a few well known examples of Quantum computation, including quantum teleportation, the quantum Fourier transform, and a quantum circuit for addition.

Resource Letter SPE-1: Single-Photon Experiments in the Undergraduate Laboratory

This Resource Letter lists undergraduate-laboratory adaptations of landmark optical experiments on the fundamentals of quantum physics. Journal articles and websites give technical details of the

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

Quantum Algorithms via Linear Algebra: A Primer

This introduction to quantum algorithms is concise but comprehensive, covering many key algorithms and presents the major quantum algorithms, from seminal algorithms by Deutsch, Jozsa, and Simon through Shor's and Grover's algorithms to recent quantum walks.

Towards a quantum programming language

  • P. Selinger
  • Computer Science
    Mathematical Structures in Computer Science
  • 2004
This paper describes the syntax and semantics of a simple quantum programming language with high-level features such as loops, recursive procedures, and structured data types, and has an interesting denotational semantics in terms of complete partial orders of superoperators.

A Modern Approach to Quantum Mechanics

Preface Stern-Gerlach Experiments Rotation of Basis States and Matrix Mechanics Angular Momentum Time Evolution A System of Two Spin-1/2 Particles Wave Mechanics in One Dimension The One-Dimensional

Computational Complexity of Quantum Satisfiability

  • C. HerrmannM. Ziegler
  • Mathematics, Computer Science
    2011 IEEE 26th Annual Symposium on Logic in Computer Science
  • 2011
The weak and strong satisfiability problem for quantum logic formulas is introduced, and both NP-complete in dimension two as well and the problem to be complete for the nondeterministic Blum-Shub-Smale model of real computation is shown.

Quantum Algorithms for Algebraic Problems ∗

In this paper we present quantum query and time complexity bounds for several group testing problems. For a set S and a binary operation on S, we consider the decision problems whether a given

Duality for the Logic of Quantum Actions

This result establishes, on one direction of the duality, that quantum dynamic frames represent quantum structures correctly; on the other direction, it gives rise to a representation of dynamics on a Piron lattice.
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