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  "documentTitle": "IonQ Inc. (IONQ)",
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  "presentationDate": "2022-05-03 00:00:00",
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      "text": "Numerous industry articles on ion-traps describe the cornucopia of optical components as a key reason one can't “take these systems out of the lab for real use.”",
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      "text": "Lasers are one of many daunting obstacles in reducing the size of ion-trap quantum computers from passenger vehicles to something usable. Numerous industry articles on ion-traps describe the cornucopia of optical components as a key reason one can’t “take these systems out of the lab for real use.” We note the “benchtops full of mirrors and lenses” in the photos of Monroe’s computer shown a few slides earlier.",
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      "text": "2020 Nature paper by MIT scientists describes optics-related constraints in ion trap systems like IonQ’s: Integrated multi-wavelength control of an ion qubit. “However, current implementations rely on free-space optics for ion control, which limits their portability and scalability.”",
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      "text": "MIT article on ion traps, Nov 2020: “Walk into a quantum lab where scientists trap ions, and you'll find benchtops full of mirrors and lenses, all focusing lasers to hit an ion “trapped” in place above a chip. By using lasers to control ions, scientists have learned to harness ions as quantum bits, or qubits, the basic unit of data in a quantum computer. But this laser setup is holding research back — making it difficult to experiment with more than a few ions and to take these systems out of the lab for real use.”",
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      "text": "\"Walk into a quantum lab where scientists trap ions, and you'll find benchtops full of mirrors and lenses, all focusing lasers to hit an ion “trapped” in place above a chip. By using lasers to control ions, scientists have learned to harness ions as quantum bits, or qubits, the basic unit of data in a quantum computer. But this laser setup is holding research back — making it difficult to experiment with more than a few ions and to take these systems out of the lab for real use.\" — MIT article, https://news.mit.edu/2020/lighting-ion-trap-1104; \"However, current implementations rely on free-space optics for ion control, which limits their portability and scalability.\" — Nature paper, https://www.nature.com/articles/s41586-020-2811-x",
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