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    Dr. Thaddeus (Tadj) Asel focuses on the growth of oxide semiconductor materials such as Gallium Oxide to address the need for smaller and higher power electronics. [Image 5 of 6]

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    Dr. Thaddeus (Tadj) Asel focuses on the growth of oxide semiconductor materials such as Gallium Oxide to address the need for smaller and higher power electronics.

    UNITED STATES

    04.17.2024

    Photo by Keith C Lewis 

    Air Force Research Laboratory

    This lab focuses on the growth of oxide semiconductor materials such as Gallium Oxide to address the need for smaller and higher power electronics. This is done by molecular beam epitaxy where a beams of atomic species are utilized to form the crystalline structure on a crystal lattice matched substrate. The work done in this lab explores and develops these material system to their fullest potential for DAF power electronic needs.

    IMAGE INFO

    Date Taken: 04.17.2024
    Date Posted: 05.07.2024 07:50
    Photo ID: 8380318
    VIRIN: 241804-F-NQ323-1001
    Resolution: 5776x3248
    Size: 10.08 MB
    Location: US
    Web Views: 18
    Downloads: 1

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    This work, Dr. Thaddeus (Tadj) Asel focuses on the growth of oxide semiconductor materials such as Gallium Oxide to address the need for smaller and higher power electronics. [Image 6 of 6], by Keith C Lewis, identified by DVIDS, must comply with the restrictions shown on https://www.dvidshub.net/about/copyright.

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    Dr. Thaddeus (Tadj) Asel focuses on the growth of oxide semiconductor materials such as Gallium Oxide to address the need for smaller and higher power electronics.
    Dr. Thaddeus (Tadj) Asel focuses on the growth of oxide semiconductor materials such as Gallium Oxide to address the need for smaller and higher power electronics.
    Dr. Thaddeus (Tadj) Asel focuses on the growth of oxide semiconductor materials such as Gallium Oxide to address the need for smaller and higher power electronics.
    Dr. Thaddeus (Tadj) Asel focuses on the growth of oxide semiconductor materials such as Gallium Oxide to address the need for smaller and higher power electronics.
    Dr. Thaddeus (Tadj) Asel focuses on the growth of oxide semiconductor materials such as Gallium Oxide to address the need for smaller and higher power electronics.
    Dr. Thaddeus (Tadj) Asel focuses on the growth of oxide semiconductor materials such as Gallium Oxide to address the need for smaller and higher power electronics.

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    Oxide Molecular Beam Epitaxy Lab

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