AI Article Synopsis
- An ultrahigh-resolution optical vector analyzer (OVA) is designed for simultaneous measurements using frequency-domain analysis (FDA), utilizing a Mach-Zehnder interferometer setup.
- The system introduces a linearly frequency modulated optical waveform to analyze different devices under test (DUTs) with varying time delays, allowing for effective signal separation at a balanced photo-detector.
- Experimental results demonstrate the OVA's ability to simultaneously characterize multiple devices, achieving a frequency resolution of 200 kHz and a measurement range of 18.5 GHz in as little as 490 microseconds.
Article Abstract
An ultrahigh-resolution optical vector analyzer (OVA) is reported for multiple parallel measurements based on frequency-domain analysis (FDA). In the proposed system, an optical linearly frequency modulated waveform generated via electro-optic modulation and optical injection locking is launched into an unbalanced Mach-Zehnder interferometer (MZI), in which multiple devices under test (DUTs) are cascaded with different time delays in one arm and a delay reference line in the other arm. The optical signals from the two arms of the MZI are sent to a balanced photo-detector, where a series of electrical signals with different frequencies is generated. With the use of the FDA, the optical spectral response of the DUTs can be separately extracted from the generated electrical signals. An experimental demonstration is performed, in which the frequency responses of a hydrogen cyanide (HCN) gas cell, a phase-shifted fiber Bragg grating, and an optical reflector are characterized simultaneously. The measurement results show that the proposed OVA has a simultaneous characterization capacity of multiple devices at a frequency resolution as high as 200 kHz, a measurement time as short as 490 µs, and a frequency measurement range as wide as 18.5 GHz.
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| http://dx.doi.org/10.1364/OL.450369 | DOI Listing |
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