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First proposed in the 1970s, quantum computing relies on quantum physics by taking advantage of certain quantum physics properties of atoms or nuclei that allow them to work together as quantum bits, or qubits, to be the computer's processor and memory. By interacting with each other while being isolated from the external environment, qubits can perform certain calculations exponentially faster than conventional computers.

Learn more about quantum dots from the many resources on this site, listed below. More information on Quantum computing can be found here.

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  1. A Gate-Level Approach To Compiling for Quantum Computers

    Online Presentations | 20 Mar 2019 | Contributor(s):: Henry G. Dietz

    This talk will briefly present a computer engineer's view of quantum computing, overview our approach, describe the current state of the prototype compiler, and suggest some ways in which compiler automatic parallelization technology might be extended to allow ordinary programs to take...

  2. Future of AI and Quantum Computing

    Online Presentations | 21 Feb 2019 | Contributor(s):: Dario Gil

    This presentation will review how IBM’s superconducting qubit implementation and Qiskit software framework is enabling researchers, developers and industrial partners worldwide to explore this new technology.

  3. Oct 18 2018

    Neil Gershenfeld at Purdue

    Professor Neil Gershenfeld, "The Intellectual Father of the Maker Movement" and director of the Center for Bits and Atoms at MIT, opens the Purdue Engineering Distinguished Lecture Series...

    https://nanohub.org/events/details/1751

  4. Hasantha Malavipathirana

    https://nanohub.org/members/206996

  5. Ali HOUADEF

    https://nanohub.org/members/200477

  6. Quantum Optics on a Nonlinear Chip

    Online Presentations | 08 May 2018 | Contributor(s):: Alexander Solntsev

    Bringing the concepts of quantum entanglement and optical nonlinearity together, and integrating them on a chip, opens a way to efficient generation of entangled photons and entanglement.

  7. Adedapo Sunday Adeyinka

    Adedapo Adeyinka is a Lecturer at the Department of Chemical Sciences, University of Johannesburg. He completed his PhD at the University of Pretoria and spent two years conducting Postdoctoral...

    https://nanohub.org/members/197673

  8. Gautam Jha

    https://nanohub.org/members/188438

  9. Myron DSilva

    https://nanohub.org/members/182103

  10. Benjamin A Zerbe

    I graduated from Grove City College with a degree in Applied Physics and Computer Hardware, with a minor in computer science. I spent a significant portion of my undergraduate career engaged in...

    https://nanohub.org/members/180270

  11. Building a Topological Quantum Computer 101

    Online Presentations | 20 Jun 2017 | Contributor(s):: Michael Freedman

    Michael Freeman shares his perspective on how we should approach building a quantum computer, starting with the mathematical roots and moving through the physics to concrete engineering and materials growth challenges on which success will hinge. He will then discuss a new, enhanced,...

  12. Michael Freedman

    Michael Freedman is Director of Station Q, Microsoft’s project on quantum physics and quantum computation located on the UCSB campus. The project is a collaborative effort between Microsoft and...

    https://nanohub.org/members/173216

  13. May 26 2017

    Building a Quantum Computer 101

    BUILDING A QUANTUM COMPUTER 101 Friday, May 26, 2017 11 a.m.-12 p.m. Burton D. Morgan Center for Entrepreneurship, Room 121 Open to the public About the presentation:...

    https://nanohub.org/events/details/1559

  14. Equipment, Techniques, and Growth of Ultra-High Purity AlGaAs-GaAs Heterostructures by Molecular Beam Epitaxy

    Online Presentations | 26 May 2017 | Contributor(s):: Geoff Gardner

    In this talk I detail research and investigation into critical equipment and materials engineering issues related to the quality of the fabricated 2DEG systems. I also will present data that demonstrates the critical role gallium purity plays in 2DEG mobility.

  15. Adam Marc Munder

    https://nanohub.org/members/165406

  16. Photonic Structures with Topological Robustness: from Classical to Quantum

    Online Presentations | 09 Jan 2017 | Contributor(s):: Mohammad Hafezi

    In this talk, I demonstrate how similar physics can be observed for photons; specifically, how various quantum Hall Hamiltonians can be simulated in an optical platform. I report on the first observation of topological photonic edge state using silicon-on-insulator technology and our recent...

  17. Yashar Mayamey

    https://nanohub.org/members/159843

  18. Nikhil Chand Kashyap Chitta

    https://nanohub.org/members/155131

  19. JP Patterson

    https://nanohub.org/members/146973

  20. Atomistic Modeling of Nano Devices: From Qubits to Transistors

    Online Presentations | 13 Apr 2016 | Contributor(s):: Rajib Rahman

    In this talk, I will describe such a framework that can capture complex interactions ranging from exchange and spin-orbit-valley coupling in spin qubits to non-equilibrium charge transport in tunneling transistors. I will show how atomistic full configuration interaction calculations of exchange...