Dual-Band Terahertz Sensor Based on Metamaterial Absorber Integrated Microfluidic

Jieping Yang; Minchang Wang; Hu De; Ying Kang; Zongren Li; Quancheng Liu; Liang Xiong; Zhixiang Wu; Weiwei Qu; Liping Shang

doi:10.3788/AOS202141.2328001

[1] Zhang X C. Terahertz wave imaging: horizons and hurdles[J]. Physics in Medicine and Biology, 47, 3667-3677(2002).

[2] Romain X, Baida F D, Boyer P. Extended malus law with terahertz metallic metamaterials for sensitive detection with giant tunable quality factor[J]. Physical Review B, 94, 045407(2016).

[3] Peng Y, Shi C J, Xu M Q et al. Qualitative and quantitative identification of components in mixture by terahertz spectroscopy[J]. IEEE Transactions on Terahertz Science and Technology, 8, 696-701(2018).

[4] Danciu M, Alexa-Stratulat T, Stefanescu C et al. Terahertz spectroscopy and imaging: a cutting-edge method for diagnosing digestive cancers[J]. Materials, 12, E1519(2019).

[5] Sihvola A. Metamaterials in electromagnetics[J]. Metamaterials, 1, 2-11(2007).

[6] Smith D R, Pendry J B. Wiltshire M C K. Metamaterials and negative refractive index[J]. Science, 305, 788-792(2004).

[7] Zhang F L, Zhao Q, Kang L et al. Experimental verification of isotropic and polarization properties of high permittivity-based metamaterial[J]. Physical Review B, 80, 195119(2009).

[8] Yan X, Zhang X F, Liang L J et al. Research progress in the application of biosensors by using metamaterial in terahertz wave[J]. Spectroscopy and Spectral Analysis, 34, 2365-2371(2014).

[9] Landy N I, Sajuyigbe S, Mock J J et al. Perfect metamaterial absorber[J]. Physical Review Letters, 100, 207402(2008).

[10] Liu J J. High-sensitivity detection method for organochlorine pesticide residues based on loop-shaped absorber[J]. Materials Chemistry and Physics, 242, 122542(2020).

[11] Saadeldin A S. Hameed M F O, Elkaramany E M A, et al. Highly sensitive terahertz metamaterial sensor[J]. IEEE Sensors Journal, 19, 7993-7999(2019).

[12] Islam M S, Sultana J, Biabanifard M et al. Tunable localized surface plasmon graphene metasurface for multiband superabsorption and terahertz sensing[J]. Carbon, 158, 559-567(2020).

[13] Zhou H, Yang C, Hu D L et al. Terahertz biosensing based on bi-layer metamaterial absorbers toward ultra-high sensitivity and simple fabrication[J]. Applied Physics Letters, 115, 143507(2019).

[14] Li F Y, He K, Tang T T et al. The terahertz metamaterials for sensitive biosensors in the detection of ethanol solutions[J]. Optics Communications, 475, 126287(2020).

[15] Yan F, Li L, Wang R X et al. Ultrasensitive tunable terahertz sensor with graphene plasmonic grating[J]. Journal of Lightwave Technology, 37, 1103-1112(2019).

[16] Zhang R, Chen Q M, Liu K et al. Terahertz microfluidic metamaterial biosensor for sensitive detection of small-volume liquid samples[J]. IEEE Transactions on Terahertz Science and Technology, 9, 209-214(2019).

[17] Huang S T, Hsu S F, Tang K Y et al. Application of a terahertz system combined with an X-shaped metamaterial microfluidic cartridge[J]. Micromachines, 11, 74(2020).

[18] Tan S Y. Study on the terahertz high refractive index metamaterial and the sensing characteristics of the metamaterial absorbers[D]. Beijing: Beijing Jiaotong University(2018).

[19] Lan F, Luo F, Mazumder P et al. Dual-band refractometric terahertz biosensing with intense wave-matter-overlap microfluidic channel[J]. Biomedical Optics Express, 10, 3789-3799(2019).

[20] Hu X, Xu G Q, Wen L et al. Metamaterial absorber integrated microfluidic terahertz sensors[J]. Laser & Photonics Reviews, 10, 962-969(2016).

[21] Geng Z X, Zhang X, Fan Z Y et al. A route to terahertz metamaterial biosensor integrated with microfluidics for liver cancer biomarker testing in early stage[J]. Scientific Reports, 7, 16378(2017).

[22] Wang X, Wang J L. Terahertz metamaterial absorber sensor based on three-dimensional split-ring resonator array and microfluidic channel[J]. Acta Optica Sinica, 40, 1904001(2020).

[23] Zhang Y J, Wang S F, Zhong G C et al. Metamaterial-based terahertz multi-band sensors integrated with microfluidic channels[J]. Chinese Journal of Lasers, 46, 0614038(2019).

[24] Liang L, Wen L, Jiang C P et al. Research progress of terahertz sensor based on artificial microstructure[J]. Infrared and Laser Engineering, 48, 0203001(2019).

[25] Cong L Q, Tan S Y, Yahiaoui R et al. Experimental demonstration of ultrasensitive sensing with terahertz metamaterial absorbers: a comparison with the metasurfaces[J]. Applied Physics Letters, 106, 031107(2015).

[26] Jindal S, Sobti S, Kumar M et al. Nanocavity-coupled photonic crystal waveguide as highly sensitive platform for cancer detection[J]. IEEE Sensors Journal, 16, 3705-3710(2016).

[27] Ayyanar N, Raja G T, Sharma M et al. Photonic crystal fiber-based refractive index sensor for early detection of cancer[J]. IEEE Sensors Journal, 18, 7093-7099(2018).