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    TEMPERATURE-STABLE, LOW-DIELECTRIC CONSTANT MATERIAL WITH AN ULTRA-LOW LOSS TANGENT

    New search for: HILL MICHAEL DAVID
    New search for: POLISETTY SRINIVAS

    Disclosed herein are embodiments of high Q, temperature stable materials with low dielectric constants. In particular, a two-phase material can form based on the rutile phase of titanium oxide along with a spinel structure of ZnAl2O4. This material can have a dielectric constant below 15 which is simultaneously temperature stable.

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    TEMPERATURE-STABLE, LOW-DIELECTRIC CONSTANT MATERIAL WITH AN ULTRA-LOW LOSS TANGENT

    New search for: HILL MICHAEL DAVID
    New search for: POLISETTY SRINIVAS

    Disclosed herein are embodiments of high Q, temperature stable materials with low dielectric constants. In particular, a two-phase material can form based on the rutile phase of titanium oxide along with a spinel structure of ZnAl2O4. This material can have a dielectric constant below 15 which is simultaneously temperature stable.

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    TEMPERATURE-STABLE, LOW-DIELECTRIC CONSTANT MATERIAL WITH AN ULTRA-LOW LOSS TANGENT

    New search for: HILL MICHAEL DAVID
    New search for: POLISETTY SRINIVAS

    Disclosed herein are embodiments of high Q, temperature stable materials with low dielectric constants. In particular, a two-phase material can form based on the rutile phase of titanium oxide along with a spinel structure of ZnAl2O4. This material can have a dielectric constant below 15 which is simultaneously temperature stable.

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    Title:

    TEMPERATURE-STABLE, LOW-DIELECTRIC CONSTANT MATERIAL WITH AN ULTRA-LOW LOSS TANGENT

    Contributors:

    HILL MICHAEL DAVID (author) / POLISETTY SRINIVAS (author)

    Publication date:

    2021-02-04

    Type of media:

    Patent

    Type of material:

    Electronic Resource

    Language:

    English

    Classification:

    IPC:  C04B Kalk , LIME / H01P WAVEGUIDES , Wellenleiter [Hohlleiter]

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