Hau Ping Chan scite author profile

A thin-film terahertz polarizer is proposed and realized via a tunable bilayer metal wire-grid structure to achieve high extinction ratios and good transmission. The polarizer is fabricated on top of a thin silica layer by standard micro-fabrication techniques to eliminate the multireflection effects. The tunable alignment of the bilayer aluminum-wire grid structure enables tailoring of the extinction ratio and transmission characteristics. Using terahertz time-domain spectroscopy (THz-TDS), a fabricated polarizer is characterized, with extinction ratios greater than 50 dB and transmission losses below 1 dB reported in the 0.2-1.1 THz frequency range. These characteristics can be improved by further tuning the polarizer parameters such as the pitch, metal film thickness, and lateral displacement.

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Robust Thin-Film Wire-Grid THz Polarizer Fabricated Via a Low-Cost Approach

Huang

Park

Parrott

et al. 2013

IEEE Photon. Technol. Lett.

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Broadband high-order mode pass filter based on mode conversion

Ahmmed

Chan

2017

Opt. Lett.

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We report a unique concept to implement a high-order mode pass filter using mode converters. Our proposed design method implements a high-order mode pass filter of any order, uses different mode converters available, and applies to a variety of planar lightwave circuit material platforms. We fabricate a broadband fundamental mode filter device using a Mach-Zehnder interferometer and Y-junctions to demonstrate our idea. The performance of the fabricated device is demonstrated experimentally in the wavelength range of 1.530-1.565 μm (C-band). This filter exhibits a simulated extinction ratio of 37 dB with an excess loss of 0.52 dB for the first-order mode transmission.

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Dual-Function Radiating Glass for Antennas and Light Covers—Part II: Dual-Band Glass Dielectric Resonator Antennas

Leung

Fang

Pan

et al. 2013

IEEE Trans. Antennas Propagat.

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Robust and accurate terahertz time-domain spectroscopic ellipsometry

et al. 2018

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In this work, we show how fiber-based terahertz systems can be robustly configured for accurate terahertz ellipsometry. To this end, we explain how our algorithms can be successfully applied to achieve accurate spectroscopic ellipsometry with a high tolerance on the imperfect polarizer extinction ratio and pulse shift errors. Highly accurate characterization of transparent, absorptive, and conductive samples comprehensively demonstrates the versatility of our algorithms. The improved accuracy we achieve is a fundamental breakthrough for reflectionbased measurements and overcomes the hurdle of phase uncertainty.

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Characterization and modeling of Bragg gratings written in polymer fiber for use as filters in the THz region

et al. 2012

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We demonstrate fiber Bragg gratings written in polymer fiber for use in the THz window for the first time. A KrF excimer laser operating at 248 nm was used to inscribe notch-type gratings in single component Topas subwavelength fiber. A transmission loss at the centre wavelength of the grating of 60 dB is observed in short gratings containing only 192 notches. Experimental results and modeling are presented. The gratings are expected to find use in THz signal filtering and chemical or biosensing applications.

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Hau Ping Chan

Widely tunable long-period gratings fabricated in polymer-clad ion-exchanged glass waveguides

Dual-Function Radiating Glass for Antennas and Light Covers—Part I: Omnidirectional Glass Dielectric Resonator Antennas

High extinction ratio and low transmission loss thin-film terahertz polarizer with a tunable bilayer metal wire-grid structure

Robust Thin-Film Wire-Grid THz Polarizer Fabricated Via a Low-Cost Approach

Broadband high-order mode pass filter based on mode conversion

Dual-Function Radiating Glass for Antennas and Light Covers—Part II: Dual-Band Glass Dielectric Resonator Antennas

Robust and accurate terahertz time-domain spectroscopic ellipsometry

Characterization and modeling of Bragg gratings written in polymer fiber for use as filters in the THz region

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