[1] Hu B B, Nuss M C. Imaging with terahertz waves [J]. Optics Letters, 1995, 20(16): 17161718.

[2] Synge E H. A suggested method for extending microscopic resolution into the ultra-microscopic region [J]. Philosophical Magazine, 1928, 6(35):356362.

[3] Ash E A, Nicholls G. Super-resolution aperture scanning microscope [J]. Nature, 1972, 237(5357): 510512.

[4] Bae J, Okamoto T, Fujii T, et al. Experimental demonstration for scanning near-field optical microscopy using a metal micro-slit probe at millimeter wavelengths [J]. Applied Physics Letters, 1997, 71(24): 35813583.

[5] Pohl D W, Denk W, Lanz M. Optical stethoscopy: Image recording with resolution λ/20 [J]. Applied Physics Letters, 1984, 44(7): 651653.

[6] Reddick R C, Warmack R J, Ferrell T L. New form of scanning optical microscopy [J]. Physical Review B, 1989, 39(1): 767770.

[7] Betzig E, Trautman J K. Near-field optics: Microscopy, spectroscopy, and surface modification beyond the diffraction limit [J]. Science, 1992, 257(5067): 189195.

[8] Specht M, Pedarnig J D, Heckl W M, et al. Scanning plasmon near-field microscope [J]. Physical Review Letters, 1992, 68(4): 476479.

[9] Palanker D V, Knippels G M H, Smith T I, et al. IR microscopy with a transient photo-induced near-field probe (tipless near-field microscopy) [J]. Optics Communications, 1998, 148(4–6): 215220.

[10] Knoll B, Keilmann F. Near-field probing of vibrational absorption for chemical microscopy [J]. Nature, 1999, 399(6732): 134137.

[11] Knoll B, Keilmann F. Infrared conductivity mapping for nanoelectronics [J]. Applied Physics Letters, 2000, 77(24): 39803982.

[12] Li P, Wang Tao, Bckmann H, et al. Graphene-enhanced infrared near-field microscopy [J]. Nano Letters, 2014, 14(8): 44004405.

[13] Yuan T, Xu J Z, Zhang X C. Development of terahertz wave microscopes [J]. Infrared Physics & Technology, 2004, 45(5-6): 417425.

[14] Kawano Y. Terahertz sensing and imaging based on nanostructured semiconductors and carbon materials [J]. Laser & Photonics Reviews, 2012, 6(2): 246257.

[15] Huber A J, Keilmann F, Wittborn J, et al. Terahertz near-field nanoscopy of mobile carriers in single semiconductor nanodevices [J]. Nano Letters, 2008, 8(11): 37663770.

[16] Wittborn J, Weiland R, Huber A J, et al. Quantitative, nanoscale free-carrier concentration mapping using terahertz near-field nanoscopy [C]// Reliability Physics Symposium (IRPS), 2011 IEEE International. IEEE, 2011: 5C.1.15C.1.7.

[17] Nagel M, Safiei A, Pletzer T, et al. Active Terahertz near-field probes for high-resolution free-carrier density imaging applications [C]// 2012 37th International Conference on Infrared, Millimeter, and Terahertz Waves. IEEE, 2012: 12.

[18] Bitzer A, Ortner A, Merbold H, et al. Terahertz near-field microscopy of complementary planar metamaterials: Babinet's principle [J]. Optics Express, 2011, 19(3): 25372545.

[19] Blanchard F, Doi A, Tanaka T, et al. Near-field THz imaging of a split ring resonator matrix [C]// 2011 36th International Conference on Infrared, Millimeter, and Terahertz Waves. IEEE, 2011: 12.

[20] Walther M, Bitzer A. Electromagnetic wave propagation close to microstructures studied by time and phase-resolved THz near-field imaging [J]. Journal of Infrared, Millimeter, and Terahertz Waves, 2011, 32(8-9): 10201030.

[21] Planken P C M, Rijmenam C E W M v, Schouten R N. Opto-electronic pulsed THz systems [J]. Semiconductor Science and Technology, 2005, 20(7): S121.

[22] Doi A, Blanchard F, Hirori H, et al. Near-field THz imaging of free induction decay from a tyrosine crystal [J]. Optics Express, 2010, 18(17): 1841918424.

[23] Kim J, Park H, Jung E, et al. Terahertz near-field imaging of biomolecular nanostructures [C]// 2008 33rd International Conference on Infrared, Millimeter, and Terahertz Waves. IEEE, 2008:11.

[24] Mair S, Gompf B, Dressel M. Spatial and spectral behavior of the optical near field studied by a terahertz near-field spectrometer [J]. Applied Physics Letters, 2004, 84(7): 12191221.

[25] Gompf B, Gebert N, Heer H, et al. Polarization contrast terahertz-near-field imaging of anisotropic conductors [J]. Applied Physics Letters, 2007, 90(8): 082104.

[26] Schade U, Holldack K, Kuske P, et al. THz near-field imaging employing synchrotron radiation [J]. Applied Physics Letters, 2004, 84(8): 14221424.

[27] Ishihara K, Ohashi K, Ikari T, et al. Terahertz-wave near-field imaging with subwavelength resolution using surface-wave-assisted bow-tie aperture [J]. Applied Physics Letters, 2006, 89(20): 201120.

[28] Degl'Innocenti R, Montinaro M, Xu J, et al. Differential near-field scanning optical microscopy with THz quantum cascade laser sources [J]. Optics Express, 2009, 17(26): 2378523792.

[29] Baragwanath A J, Freeman J R, Gallant A J, et al. Terahertz near-field imaging using subwavelength plasmonic apertures and a quantum cascade laser source [J]. Optics Letters, 2011, 36(13): 23932395.

[30] CHEN Hua, WANG Xiao-Zhou, ZHAO Tian, et al. Diagnose human tumors by THz near-field imaging [C]// Twelfth International Conference on Photonics and Imaging in Biology and Medicine. SPIE, 2014: 923002.

[31] Krenz P M, Olmon R L, Lail B A, et al. Near-field measurement of infrared coplanar strip transmission line attenuation and propagation constants [J]. Optics Express, 2010, 18(21): 2167821686.

[32] Blanchard F, Doi A, Tanaka T, et al. Real-time terahertz near-field microscope [J]. Optics Express, 2011, 19(9): 82778284.

[33] Doi A, Blanchard F, Tanaka T, et al. Improving spatial resolution of real-time terahertz near-field microscope [J]. Journal of Infrared Millimeter and Terahertz Waves, 2011, 32(8-9): 10431051.

[34] Blanchard F, Doi A, Tanaka T, et al. Real-time, subwavelength terahertz imaging [J]. Annual Review of Materials Research, 2013, 43(1): 237259.

[35] Hunsche S, Koch M, Brener I, et al. THz near-field imaging [J]. Optics Communications, 1998, 150(1-6): 2226.

[36] Betzig E, Harootunian A, Lewis A, et al. Near-field diffraction by a slit: implications for superresolution microscopy[J]. Applied Optics,1986, 25(12): 18901900.

[37] Klein N, Lahl P, Poppe U, et al. A metal-dielectric antenna for terahertz near-field imaging [J]. Journal of Applied Physics, 2005, 98(1): 014910.

[38] ZHAN Hui, Mendis R, Mittleman D M. Superfocusing terahertz waves below λ/250 using plasmonic parallel-plate waveguides [J]. Optics Express, 2010, 18(9): 96439650.

[39] LIU Jing-Bo, Mendis R, Mittleman D M, et al. A tapered parallel-plate-waveguide probe for THz near-field reflection imaging [J]. Applied Physics Letters, 2012, 100(3): 031101.

[40] Mitrofanov O, Renaud C C, Seeds A J. Terahertz probe for spectroscopy of sub-wavelength objects [J]. Optics Express, 2012, 20(6): 61976202.

[41] Mitrofanov O, Brener I, Harel R, et al. Terahertz near-field microscopy based on a collection mode detector [J]. Applied Physics Letters, 2000, 77(22): 34963498.

[42] Mitrofanov O, Brener I, Wanke M C, et al. Near-field microscope probe for far infrared time domain measurements [J]. Applied Physics Letters, 2000, 77(4): 591593.

[43] Mitrofanov O, Lee M, Hsu J W P, et al. Collection-mode near-field imaging with 0.5-THz pulses [J]. IEEE Journal of Selected Topics in Quantum Electronics, 2001, 7(4): 600607.

[44] Mitrofanov O, Lee M, Hsu J W P, et al. Terahertz pulse propagation through small apertures [J]. Applied Physics Letters, 2001, 79(7): 907909.

[45] Wchter M, Nagel M, Kurz H. Tapered photoconductive terahertz field probe tip with subwavelength spatial resolution [J]. Applied Physics Letters, 2009, 95(4): 041112.

[46] Bitzer A, Ortner A, Walther M. Terahertz near-field microscopy with subwavelength spatial resolution based on photoconductive antennas [J]. Applied Optics, 2010, 49(19): E1E6.

[47] Macfaden A J, Reno J L, Brener I, et al. 3 μm aperture probes for near-field terahertz transmission microscopy [J]. Applied Physics Letters, 2014, 104(1): 011110.

[48] Novotny L, Pohl D W, Regli P. Near-field, far-field and imaging properties of the 2D aperture SNOM [J]. Ultramicroscopy, 1995, 57(2–3): 180188.

[49] Keilmann F. FIR microscopy [J]. Infrared Physics & Technology, 1995, 36(1): 217224.

[50] Bethe H. Theory of diffraction by small holes [J]. Physical Review, 1944, 66(7-8): 163182.

[51] Chen Q, Jiang Z, Xu G X, et al. Near-field terahertz imaging with a dynamic aperture [J]. Optics Letters, 2000, 25(15): 11221124.

[52] Chen Q, Zhang X C. Semiconductor dynamic aperture for near-field terahertz wave imaging [J]. IEEE Journal of Selected Topics in Quantum Electronics, 2001, 7(4): 608614.

[53] Zhang X C, Xu J Z. Introduction to THz wave photonics [M]. New York: Springer, 2010: 149174.

[54] Inouye Y, Kawata S. Near-field scanning optical microscope with a metallic probetip [J]. Optics Letters, 1994, 19(3): 159161.

[55] Zenhausern F, O’Boyle M P, Wickramasinghe H K. Apertureless near-field optical microscope [J]. Applied Physics Letters, 1994, 65(13): 16231625.

[56] Chen H T, Kersting R, Cho G C. Terahertz imaging with nanometer resolution [J]. Applied Physics Letters, 2003, 83(15): 30093011.

[57] Moon K, Park H, Kim J, et al. Subsurface nanoimaging by broadband terahertz pulse near-field microscopy [J]. Nano Letters, 2015, 15(1): 549552.

[58] Bouhelier A, Beversluis M, Hartschuh A, et al. Near-field second-harmonic generation induced by local field enhancement [J]. Physical Review Letters, 2003, 90(1): 013903.

[59] Hayazawa N, Tarun A, Taguchi A, et al. Development of tip-enhanced near-field optical spectroscopy and microscopy [J]. Japanese Journal of Applied Physics, 2009, 48(8S2): 08JA02.

[60] van der Valk N C J, Planken P C M. Electro-optic detection of subwavelength terahertz spot sizes in the near field of a metal tip [J]. Applied Physics Letters, 2002, 81(9): 15581560.

[61] van der Valk N C J, Planken P C M. Measurement of THz spot sizes with a λ/200 diameter in the near-field of a metal tip [J]. Journal of Biological Physics, 2003, 29(2-3): 239245.

[62] van der Valk N C J, Planken P C M. Towards terahertz near-field microscopy [J]. Philosophical Transactions of the Royal Society of London Series a-Mathematical Physical and Engineering Sciences, 2004, 362(1815): 315319.

[63] Adam A J L, Brok J M, Planken P C M, et al. THz near-field measurements of metal structures [J]. Comptes Rendus Physique, 2008, 9(2): 161168.

[64] Yuan T, Park H, Xu J, et al. Field-induced THz wave emission with nanometer resolution[C]//Smart Materials, Nano, and Micro-Smart Systems. SPIE, 2005: 18.

[65] Knoll B, Keilmann F. Enhanced dielectric contrast in scattering-type scanning near-field optical microscopy [J]. Optics Communications, 2000, 182(4–6): 321328.

[66] Kim J, Park H, Lee K, et al. Self-consistent analytic scattering theory for apertureless THz near-field microscope [C]// Infrared and Millimeter Waves, 2007 and the 2007 15 th International Conference on Terahertz Electronics. IRMMW-THz. Joint 32nd International Conference on. IEEE, 2007: 496497.

[67] Moon K, Kim J, Han Y, et al. Iterative image method for apertureless THz near-field microscope [C]// 2008 33rd International Conference on Infrared, Millimeter, and Terahertz Waves. IEEE, 2008: 12.

[68] Moon K, Jung E, Lim M, et al. Terahertz near-field microscope: analysis and measurements of scattering signals [J]. IEEE Transactions on Terahertz Science and Technology, 2011, 1(1): 164168.

[69] Moon K, Jung E, Lim M, et al. Quantitative analysis and measurements of near-field interactions in terahertz microscopes [J]. Optics Express, 2011, 19(12): 1153911544.

[70] Moon K, Do Y, Lim M, et al. Quantitative coherent scattering spectra in apertureless terahertz pulse near-field microscopes [J]. Applied Physics Letters, 2012, 101(1): 011109.

[71] Adam A J, van der Valk N C, Planken P C. Measurement and calculation of the near field of a terahertz apertureless scanning optical microscope [J]. Journal of the Optical Society of America B, 2007, 24(5): 10801090.

[72] Chen H T, Kraatz S, Cho G C, et al. Identification of a resonant imaging process in apertureless near-field microscopy [J]. Physical Review Letters, 2004, 93(26): 267401.

[73] Cho G C, Chen H T, Kraatz S, et al. Apertureless terahertz near-field microscopy [J]. Semiconductor Science and Technology, 2005, 20(7): S286S292.

[74] Li Y, Popov S, Friberg A T, et al. Rigorous modeling and physical interpretation of terahertz near-field imaging using SNOM techniques [J]. Journal of the European Optical Society-Rapid Publications, 2009, 4: 09007.

[75] Planken P C M, van der Valk N C J. Spot-size reduction in terahertz apertureless near-field imaging [J]. Optics Letters, 2004, 29(19): 23062308.

[76] Wang K, Barkan A, Mittleman D M. Near-field optical probe studied using terahertz pulses [C]// Lasers and Electro-Optics Society, 2003. LEOS 2003. The 16th Annual Meeting of the IEEE. IEEE, 2003, 1: 328329.

[77] Wang K, Mittleman D M, van der Valk N C J, et al. Antenna effects in terahertz apertureless near-field optical microscopy [J]. Applied Physics Letters, 2004, 85(14): 27152717.

[78] Kurihara T, Yamaguchi K, Watanabe H, et al. Dielectric probe for scattering-type terahertz scanning near-field optical microscopy [J]. Applied Physics Letters, 2013, 103(15): 151105.

[79] Yuan T, Mickan S, Xu J Z, et al. Towards an apertureless electro-optic T-ray microscope [C]// Lasers and Electro-Optics, 2002. CLEO '02. Technical Digest. Summaries of Papers Presented at the. IEEE, 2002: 637638.

[80] XU J Z, Zhang X C. Optical rectification in an area with a diameter comparable to or smaller than the center wavelength of terahertz radiation [J]. Optics Letters, 2002, 27(12): 10671069.

[81] YANG Yu-Ping, YAN Wei, WANG Li. A reflected terahertz-emission microscopy [J]. Chinese Physics Letters, 2007, 24(1): 169.

[82] YANG Yu-Ping, YAN Wei, WANG Li. A transmitted terahertz-emission microscopy [C]// Photonics Asia 2007. SPIE, 2007: 68400G68400G9.

[83] Lecaque R, Gresillon S, Barbey N, et al. THz near-field optical imaging by a local source [J]. Optics Communications, 2006, 262(1): 125128.

[84] Lecaque R, Gresillon S, Boccara C. THz emission microscopy with sub-wavelength broadband source [J]. Optics Express, 2008, 16(7): 47314738.

[85] Murakami H, Tonouchi M. Laser terahertz emission microscopy [J]. Comptes Rendus Physique, 2008, 9(2): 169183.

[86] Serita K, Mizuno S, Murakami H, et al. Scanning laser terahertz near-field imaging system [J]. Optics Express, 2012, 20(12): 1295912965.

[87] Murakami H, Serita K, Maekawa Y, et al. Scanning laser THz imaging system [J]. Journal of Physics D: Applied Physics, 2014, 47(37): 374007.

[88] Serita K, Murakami H, Kawayama I, et al. Evaluation of human hairs with terahertz wave [J]. Optical Engineering, 2014, 53(3).

[89] ZHAO Jia-Yu, CHU Wei, GUO Lan-Jun, et al. Terahertz imaging with sub-wavelength resolution by femtosecond laser filament in air [J]. Scientific Reports, 2014, 4(1): 3880.

[90] Lezec H J, Degiron A, Devaux E, et al. Beaming light from a subwavelength aperture [J]. Science, 2002, 297(5582): 820822.

[91] Heggie T J, Naylor D A, Gom B G, et al. Enhanced transmission and beam confinement using bullseye plasmonic lenses at THz frequencies: Proc. SPIE 8985, Terahertz, RF, Millimeter, and Submillimeter-Wave Technology and Applications VII, 2014 [C]. Bellingham: SPIE, 2014, 89851G.

[92] Ishihara K, Ikari T, Minamide H, et al. Terahertz near-field imaging using enhanced transmission through a single subwavelength aperture [J]. Japanese Journal of Applied Physics, 2005, 44(29): L929L931.

[93] CHIU Chui-Min, CHEN Hung-Wen, HUANG Yu-Ru, et al. All-terahertz fiber-scanning near-field microscopy [J]. Optics Letters, 2009, 34(7): 10841086.

[94] CHEN Hua, LEE Wen-Jeng, HUANG Hsin-Yi, et al. Performance of THz fiber-scanning near-field microscopy to diagnose breast tumors [J]. Optics Express, 2011, 19(20): 1952319531.

[95] CHEN Hua, MA Shi-Hua, YAN Wen-Xing, et al. The diagnosis of human liver cancer by using THz fiber-scanning near-field imaging [J]. Chinese Physics Letters, 2013, 30(3): 030702.

[96] CHEN Hua, MA Shi-Hua, WU Xiu-Mei, et al. Diagnose human colonic tissues by terahertz near-field imaging [J]. Journal of Biomedical Optics, 2015, 20(3): 036017 .

[97] Silveirinha M G, Belov P A, Simovski C R. Subwavelength imaging at infrared frequencies using an array of metallic nanorods [J]. Physical Review B, 2007, 75(3): 035108.

[98] Szelc J, Rutt H. Near-field THz imaging and spectroscopy using a multiple subwavelength aperture modulator [J]. IEEE Transactions on Terahertz Science and Technology, 2013, 3(2): 165171.

[99] LI Pei-Ning, Taubner T. Broadband subwavelength imaging using a tunable graphene-lens [J]. ACS Nano, 2012, 6(11): 10107-10114.