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Related Concept Videos

Characteristics of Series Resonant Circuit01:24

Characteristics of Series Resonant Circuit

837
Series resonance occurs in a circuit containing inductive (L), capacitive (C), and resistive (R) elements connected sequentially. At the resonance frequency, the inductive and capacitive reactances are equal in magnitude but opposite in sign, effectively canceling each other. This causes the circuit's impedance is minimal, primarily determined by the resistance R. The resonant frequency of an RLC circuit is defined as:
837
Design Example: Underdamped Parallel RLC Circuit01:17

Design Example: Underdamped Parallel RLC Circuit

795
Consider designing an oscillator circuit, a crucial component in various electronic devices and systems. The objective is to create an oscillator circuit with specific characteristics: a damped natural frequency of 4 kHz and a damping factor of 4 radians per second. To accomplish this, a parallel RLC circuit is employed, known for its ability to sustain oscillations at a resonant frequency. In this case, the damping factor is pivotal in achieving the desired performance.
Starting with a fixed...
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Related Experiment Video

Updated: Apr 18, 2026

Fabrication of Silica Ultra High Quality Factor Microresonators
07:51

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Integrated high quality factor lithium niobate microdisk resonators.

Cheng Wang, Michael J Burek, Zin Lin

    Optics Express
    |January 22, 2015
    PubMed
    Summary
    This summary is machine-generated.

    We developed Lithium Niobate (LN) microdisk resonators for nonlinear optics. These resonators achieve high optical quality factors and efficient on-chip second harmonic generation, advancing integrated photonic devices.

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    Area of Science:

    • Nonlinear optics
    • Materials science
    • Integrated photonics

    Background:

    • Lithium Niobate (LN) is a key material for nonlinear optical applications.
    • Developing efficient on-chip nonlinear optical devices is crucial for integrated photonics.

    Purpose of the Study:

    • To demonstrate Lithium Niobate (LN) microdisk resonators with high optical quality factors.
    • To leverage LN's nonlinear properties for on-chip second harmonic generation (SHG).

    Main Methods:

    • Fabrication of LN microdisk resonators using robust and scalable techniques.
    • Characterization of resonator performance over a wide wavelength range.
    • Demonstration of on-chip SHG using the fabricated resonators.

    Main Results:

    • Achieved optical quality factor of approximately 10^5.
    • Demonstrated operation across visible and near-infrared wavelengths.
    • Obtained a second harmonic generation conversion efficiency of 0.109 W^-1.

    Conclusions:

    • LN microdisk resonators are a promising platform for integrated nonlinear optics.
    • The demonstrated fabrication techniques enable scalable production of high-performance devices.
    • Efficient on-chip SHG is achievable using these LN microresonators.