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Related Concept Videos

Faraday Disk Dynamo01:23

Faraday Disk Dynamo

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A Faraday disk dynamo is a DC generator, producing an emf that is constant in time. It consists of a conducting disk that rotates with a constant angular velocity in the magnetic field, perpendicular to the disk's plane. The rotation of the disk causes a change in magnetic flux, which induces an emf, causing opposite charges to develop on the rim and in the center of the disk. The polarity of the induced emf can be determined by the direction of the magnetic field and the direction of the...
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Electrically driven europium-doped GaN microdisk.

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    This study presents electrically driven microdisk resonators using europium-doped gallium nitride (Eu-GaN). An SiO2 spacer successfully prevented optical degradation, enabling efficient light emission from these nanophotonic devices.

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    Area of Science:

    • Nanophotonics
    • Materials Science
    • Optoelectronics

    Background:

    • Microdisk resonators are key for active nanophotonic devices.
    • Electrical injection is crucial but challenging due to optical property degradation.

    Purpose of the Study:

    • To demonstrate an electrically injected microdisk resonator.
    • To overcome challenges in current injection for nanophotonic devices.
    • To utilize europium-doped gallium nitride (Eu-GaN) for light emission.

    Main Methods:

    • Fabrication of an electrically injected microdisk.
    • Incorporation of an SiO2 spacer layer to isolate optical modes from electrical contacts.
    • Characterization of optical emission and resonance properties.

    Main Results:

    • Successful fabrication of an electrically injected Eu-GaN microdisk resonator.
    • Eu-related light emission observed upon electrical injection.
    • Achieved a cavity quality (Q)-factor of 3400, indicating good optical performance.

    Conclusions:

    • The developed microdisk resonator design enables electrical driving without compromising optical properties.
    • Eu-doped GaN is a viable material for electrically driven nanophotonic devices.
    • The use of an SiO2 spacer is an effective strategy for integrating electrical injection.