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    Area of Science:

    • Terahertz (THz) spectroscopy
    • Metamaterials
    • Sensing applications

    Background:

    • Hybridization induced transparency (HIT) enhances sensitivity in THz spectroscopy by coupling material absorption and metamaterial resonances.
    • Current HIT methods struggle with samples of varying thickness due to resonance shifts, limiting versatility.

    Purpose of the Study:

    • To develop a versatile THz sensing technique using tunable metamaterials.
    • To overcome the limitations of fixed-geometry HIT sensors for samples with different thicknesses.

    Main Methods:

    • Utilized Indium Antimonide (InSb) coupled rod metamaterial structures.
    • Controlled the electromagnetic response of the metamaterial using ambient temperature and magnetic field.
    • Investigated the tunability of the HIT effect for sensing applications.

    Main Results:

    • Demonstrated that InSb coupled rod structures allow for easy tuning of the HIT effect.
    • Achieved efficient THz sensing for samples of varying thicknesses without altering the metamaterial geometry.
    • Showcased the tunability of electromagnetic response via external parameters.

    Conclusions:

    • Tunable metamaterials offer a versatile solution for THz spectroscopic sensing.
    • The proposed InSb coupled rod system effectively addresses the challenge of sample thickness variation in HIT sensing.
    • This approach enhances the practical applicability of HIT-based THz sensing.