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黃家健

Tel: (04) 22840427 ext. 514 矽光子元件 / 積體光學 / 奈米電漿子元件 / 光電元件模擬 / ORCID: https://orcid.org/0000-0001-8808-3098
  • 學 歷 Education
    國立台灣大學應用力學研究所博士
    國立清華大學化學工程學系學士
     
    經 歷 Work Experience
    國立中興大學物理學系 系主任  (2022/02-迄今)
    國立中興大學理學院 副院長 (2019/02-2022/01)
    國立中興大學奈米科學所 所長(2015/08-2018/07)
    國立中興大學物理學系 教授(2014/08-)
    國立中興大學物理學系 副教授(2011/08-2014/07)
    國立中興大學物理學系 助理教授(2009/08-2011/07)
    嶺東科技大學資訊學院 助理教授、副教授(2003/08-2009/07)
     
    榮 譽 Honor List
    103 學年度興人師獎
    108 學年度服務特優獎
  • 矽光子元件 / 積體光學 / 奈米電漿子元件 / 光電元件模擬 / 
  •    2022
    • Chia-Chien Huang, Hybrid image graphene polaritons with extremely confined mode and field enhancement in the terahertz regime, Advanced Optical Materials, (published online), (2022). [IF = 10.050, Optics, 9/102 (8.8%)] (This article also appears in: Hot Topics: 1) Carbon, Graphite, and Graphene of Advanced Materials; 2) Surfaces and Interfaces of Advanced Materials Interfaces)
    • Chia-Chien Huang, Anisotropic slot waveguides with bulk transition metal dichalcogenides for crosstalk reduction and high-efficiency mode conversion, Optics Express 30(17), 30219-30232 (2022). 
    • Ruei-Jan Chang and Chia-Chien Huang*, Simulation of a high-performance polarization beam slitter assisted by two-dimensional metamaterials, Nanomaterials 12(11), 1852 (2022). [IF = 5.719, Physics/Applied, 37/161 (22.9%)] 
    • Pei-Yu Tu and Chia-Chien Huang*, Analysis of hybrid plasmon-phonon-polariton modes in hBN/graphene/hBN stacks for mid-infrared waveguiding, Optics Express 30(2), 2863-2876 (2022). 
       2021
    • Chia-Chih Huang and Chia-Chien Huang*, Terahertz hybrid plasmonic waveguides with ultra-long propagation lengths based on multilayer graphene-dielectric stacks, Optics Express 29(24), 39521-39535 (2021). [IF = 3.894, Optics, 20/99 (20.20%)]
    • Chia-Chien Huang*, Ruei-Jan Chang, and Ching-Wen Cheng, Ultra-low-loss mid-infrared plasmonic waveguides based on multilayer graphene metamaterials, Nanomaterials 11(11), 2981 (2021). The manuscript has been selected as an Editor's Choice.
    • Chia-Chih Huang, Ruei-Jan Chang, and Chia-Chien Huang*, Nanostructured hybrid plasmonic waveguide in a slot structure for high-performance light transmission, Optics Express 29(18), 29341-29356 (2021).
    • Yu-En Lin, Wei-Han Hsu, and Chia-Chien Huang*, Highly confined dielectric guiding mode in nanoridges embedded in a conventional slot waveguide, Optics Express 29(11), 16284-16298 (2021).
    • Chia-Chien Huang*, An efficient and high-order convergence mode solver for solving graphene and phosphorene-based waveguides, Optics Express 29(2), 1147-1161 (2021). The manuscript has been highlighted as an Editor's Pick.
       2020
    • Chia-Chih Huang and Chia-Chien Huang*, Ultra-compact and high-performance polarization beam splitter assisted by slotted waveguide subwavelength gratings, Scientific Reports 10, 12841 (2020). [IF = 4.380, Multidisciplinary Sciences, 17/73 (23.28%)]
    • Chia-Chih Huang and Chia-Chien Huang*, Theoretical analysis of mode conversion by refractive-index perturbation based on a single tilted slot on a silicon waveguide, Optics Express 28(13), 18986-18999 (2020). 
    • Chia-Chih Huang, Chang-Xuan Wu, and Chia-Chien Huang*, Numerical design of a high-performance polarization beam splitter assisted by composite subwavelength gratings, Optics Express 28(10), 14908-14921 (2020)
       Before 2019
    • Chia-Chien Huang* and Te-Chia Sun, Numerical simulations of tunable ultrashort power splitters based on slotted multimode interference couplers, Scientific Reports 9, 12756 (2019).
    • Chia-Chien Huang*, Numerical investigations of an ultra-compact polarization beam splitter based on augmented low-index guiding and subwavelength grating structures, Scientific Reports 8, 17338 (2018).
    • Lai-Ming Sheng and Chia-Chien Huang*, Submicron-scale broadband polarization beam splitter using CMOS-compatible materials, Scientific Reports 7, 4531 (2017).
    • Ken-Wei Chang and Chia-Chien Huang*, Ultrashort broadband polarization beam splitter based on a combined hybrid plasmonic waveguide, Scientific Reports 6, 19609 (2016). (IF: 5.578, Multidisciplinary Sciences: 5/57)
    • Chia-Chien Huang*, Metal nanoridges in hollow Si-loaded plasmonic waveguides for optimal mode properties and ultra-compact photonic devices, IEEE Journal of Selected Topics in Quantum Electronics 20(4), 4600409 (2014). (IF: 4.078, Optics: 4/80)
    • Chia-Chien Huang*, Ultra-long-range symmetric plasmonic waveguide for high-density and compact photonic devices, Optics Express 21(24), 29544-29557 (2013). (IF: 3.546, Optics: 5/80)
    • Chia-Chien Huang*, Hybrid plasmonic waveguide comprising a semiconductor nanowire and metal ridge for low-loss propagation and nanoscale confinement, IEEE Journal of Selected Topics in Quantum Electronics 18(6), 1661-1668 (2012).
    • Chia-Chien Huang*, Analysis of long-range surface plasmon polaritons in nonlinear plasmonic waveguides using pseudospectral method, Optics Express 20(17), 18665-18678 (2012).
    • Chia-Chien Huang*, Pseudospectral mode solver for analyzing nonlinear optical waveguides, Optics Express  20(12), 13014-13029 (2012).
    • Chia-Chien Huang*, Solving the full anisotropic liquid crystal waveguides by using an iterative pseudospectral-based eigenvalue method, Optics Express 19(4), 3363-3378 (2011).
    • Chia-Chien Huang*, Modeling mode characteristics of transverse anisotropic waveguides using a vector pseudospectral approach, Optics Express 18(25), 26583-26599 (2010).
    • Chia-Chien Huang*, Numerical investigation of mode characteristics of nanoscale surface plasmon-polaritons using a pseudospectral scheme, Optics Express 18(23), 23711-23726 (2010).
       Before 2009
    • Chia-Chien Huang*, Improved pseudospectral mode solver by prolate spheroidal wave functions for optical waveguides with step-index, IEEE/OSA Journal of Lightwave Technology 27(5), 597-605 (2009).
    • Chia-Chien Huang*, Semiconductor nanodevice simulation by multidomain spectral method with Chebyshev, prolate spheroidal and Laguerre basis functions, Computer Physics Communications 180(3), 375-383 (2009).
    • Chia-Chien Huang*, Simulation of optical waveguides by novel pseudospectral-based imaginary-distance beam propagation method, Optics Express 16(22), 17915-17934 (2008).
    • Chia-Chien Huang*, Leaky mode analysis of optical waveguides by Legendre and Laguerre pseudospectral method, Microwave and Optical Technology Letters 50(10), 2507-2509 (2008).
    • Chia-Chien Huang*, Numerical calculations of ARROW structures by pseudospectral approach with Mur’s absorbing boundary conditions, Optics Express 14(24), 11631-11652 (2006).
    • Chia-Chien Huang* and Chia-Chih Huang, A novel wide-angle beam propagation method based on the spectral collocation scheme for computing tilted waveguides, IEEE Photonics Technology Letters 17(9), 1872-1874 (2005).
    • Chia-Chien Huang* and Chia-Chih Huang, An efficient and accurate semivectorial spectral collocation method for analyzing polarized modes of rib waveguides, IEEE/OSA Journal of Lightwave Technology 23(7), 2309-2317 (2005).
    • Chia-Chien Huang* and Chia-Chih Huang, Modal analysis of dielectric optical waveguides based on Chebyshev polynomials, Microwave and Optical Technology Letters 45(4), 328-331 (2005).
    • Chia-Chien Huang*, Chia-Chih Huang, and Jaw-Yen Yang, A full-vectorial pseudospectral modal analysis of dielectric optical waveguides with stepped refractive index profiles, IEEE Journal of Selected Topics in Quantum Electronics 11(2), 457-465 (2005).
    • Chia-Chih Huang*, Chia-Chien Huang, and Way-Seen Wang, Single-mode three-branch waveguide with a diamond-like low-index microprism, Microwave and Optical Technology Letters 45(2), 145-147 (2005).
    • Chia-Chien Huang, Chia-Chih Huang, and Jaw-Yen Yang*, An efficient method for computing optical waveguides with Chia- discountinuous refractive index profiles using spectral collocation method with domain decomposition, IEEE/OSA Journal of Lightwave Technology 21(10), 2284-2296 (2003).