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Electronic Distance Measuring Instruments (EDMs) are essential tools in modern surveying, offering precise distance measurements by emitting electromagnetic signals and calculating the time required for these signals to travel to a target and return. Two primary types of signals are used in EDMs — light waves and microwaves — each suited to specific environmental and distance requirements. Light-wave-based EDMs utilize either infrared or laser light, providing high accuracy over short...
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IR spectra are divided into two main regions: the diagnostic region and the fingerprint region. The diagnostic region of the spectrum lies above 1500 cm−1. The absorptions resulting from single-bond vibrations of the N–H, C–H, and O–H stretch at higher wavenumbers and appear on the left side of the spectrum. The stretching absorptions of the C≡C and C≡N occur between 2100–2300 cm−1. In contrast, those arising from stretching absorptions of the...
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Related Experiment Video

Updated: Aug 25, 2025

A Random-displacement Measurement by Combining a Magnetic Scale and Two Fiber Bragg Gratings
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A Random-displacement Measurement by Combining a Magnetic Scale and Two Fiber Bragg Gratings

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Heterogeneous multicore fiber-based microwave frequency measurement.

Elham Nazemosadat, Sergi García, Ivana Gasulla

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    Summary
    This summary is machine-generated.

    This study demonstrates a new microwave frequency measurement method using heterogeneous multicore fiber (MCF). This technique leverages MCF core properties to achieve accurate frequency estimation over a wide range.

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    Area of Science:

    • Optical Fiber Communications
    • Microwave Engineering
    • Metrology

    Background:

    • Accurate microwave frequency measurement is crucial for various applications.
    • Existing methods may face limitations in range, accuracy, or compactness.
    • Multicore fibers offer novel possibilities for integrated optical signal processing.

    Purpose of the Study:

    • To propose and experimentally demonstrate a novel microwave frequency measurement scheme.
    • To utilize the unique properties of heterogeneous multicore fibers for frequency sensing.
    • To achieve high accuracy and a broad measurement range for microwave frequencies.

    Main Methods:

    • Employing a heterogeneous 7-core multicore fiber (MCF).
    • Realizing two distinct 2-tap microwave filters with different free spectral ranges (FSRs) using MCF core delays.
    • Establishing an amplitude comparison function (ACF) from the ratio of filter frequency responses.
    • Tuning FSRs by varying operational wavelength to obtain complementary ACF data.

    Main Results:

    • Experimental demonstration of the proposed microwave frequency measurement scheme.
    • Achieved a measurement error of ±71 MHz over a broad frequency range of 0.5-40 GHz.
    • Validated the effectiveness of using complementary ACF curves for improved accuracy.

    Conclusions:

    • The proposed scheme offers a flexible and compact solution for microwave frequency measurement.
    • Heterogeneous MCFs provide inherent parallelism for advanced optical signal processing.
    • The method demonstrates potential for enhanced accuracy in frequency metrology.