| [1] | Peter H Siegel. Terahertz technology[J]. IEEE Transactions on Microwave Theory and Techniques, 2002, 50(3):910-928. |
| [2] | Yao Jianquan, Wang Jingli, Zhong Kai, et al. Study and outlook of THz radiation atmospheric propagation[J]. Journal of OptoelectronicsLaser, 2010, 21(10):1582-1588. (in Chinese)姚建铨, 汪静丽, 钟凯, 等. THz辐射大气传输研究和展望[J]. 光电子激光, 2010, 21(10):1582-1588. |
| [3] | Peter H Siegel. Terahertz pioneers:a series of interviews with significant contributors to terahertz science and technology[J]. IEEE Transactions on Terahertz Science and Technology, 2014, 4(4):409. |
| [4] | Jana Mendrok, Dong L Wu, Stefan A Buhler, et al. Sub-millimeter wave radiometer for observation of cloudice-aproposal for Japanese mission[C]//Sensors, Systems, and Next-Generation Satellites XIII SPIE, 2009, 7474:74740T. |
| [5] | Paul B Hays, Hilary E Snell. Atmospheric remote sensing in the terahertz region[C]//First International Symposium on Space Terahertz Technology, 1990:482-491. |
| [6] | Cathy Clerbaux, Solene Turquety, Pierre Coheur. Infrared remote sensing of atmospheric composition and air quality:towards operational applications[J]. Comptes Rendus Geoscience, 2010, 342(4):349-356. |
| [7] | Paulo Pampaloni, S Paloscia. Microwave Radiometry and Remote Sensing of the Earth's Surface and Atmosphere[M]. Netherlands:VSP, 2000:263-282. |
| [8] | Yang P, Liou K N, Bi L, et al. On the radiative properties of ice clouds:Light scattering, remote sensing, and radiation parameterization[J]. Adv Atmos Sci, 2015, 32(1):32-63. |
| [9] | Michael A Lefsky, Warren B Cohen, Geoffrey G Parker, et al. Lidar remote sensing for ecosystem studies[J]. Bioscience, 2002, 52(1):19-30. |
| [10] | Klein U. Future satellite earth observation requirements and technology in millimetre and sub-millimetre wavelength region[C]//The 17th Int Symp on Space THz Technology, 2006:21-28. |
| [11] | Peter H Siegel. THz instruments for space[J]. IEEE Transactions on Antennas and Propagation, 2007, 55(11):2957-2965. |
| [12] | Peter H Siegel. THz for space:the golden age[J]. IEEE Xplore, 2010, 978(1):816-819. |
| [13] | Rothman L S, Gordon I E, Babikov Y, et al. The HITRAN2012 molecular spectroscopic database[J]. Journal of Quantitative Spectroscopy Radiative Transfer, 2013, 130:4-50. |
| [14] | Podobedov V B, Plusquellic D F, Siegrist K E, et al. New measurements of the water vapor continuum in the regionfrom 0.3 to 2.7 THz[J]. Journal of Quantitative Spectroscopy Radiative Transfer, 2008, 109:458-467. |
| [15] | David M Slocum, Thomas M Goyette, Elizabeth J Slingerland, et al. Terahertz atmospheric attenuation and continuum effects[C]//SPIE DSS Conference, 2013, 8716:871607-1-871607-14. |
| [16] | David M Slocum, Thomas M Goyette, Robert H Giles. High-resolution terahertz atmospheric water vapor continuum measurements[C]//Terahertz Physics, Devices, and Systems VIII:Advanced Applications in Industry and Defense, 2014, 9102:91020E. |
| [17] | Kasai Yasuko. Terahertz-wave remote sensing:introduction to terahertz-wave remotesensing[J]. Journal of the National Institute of Information and Communications Technology, 2008, 55(1):79-81. |
| [18] | Kasai Yasuko, Ochiai Satoshi, Mendrok Jana, et al. THz remote sensing for water vapor and cloud observation[C]//37th COSPAR Scientific Assembly, 2008:1456-1463. |
| [19] | Blackwell W J, Staelin D H. Comparative performance analysis of passive microwave systems for tropospheric sounding of temperature and water vapor profiles[C]//Proceedings of SPIE, 1996, 2812:472-478. |
| [20] | Cho H-M, Zhang Z, Meyer K, et al. Frequency and causes of failed MODIS cloud property retrievals for liquid phase clouds over global oceans[J]. J Geophys Res Atmos, 2015, 120(9):4132-4154. |
| [21] | Vidot J, Baran A J, Brunel P. A new ice cloud parameterization for infrared radiative transfer simulation of cloudy radiances:evaluation and optimization with IIR observations and ice cloud profile retrieval products[J]. J Geophys Res Atmos, 2015, 120(14):6937-6951. |
| [22] | Gong J, Wu D L. CloudSat-constrained cloud ice water path and cloud top height retrievals from MHS 157 and 183.3 GHz radiances[J]. Atmospheric Measurement Techniques, 2014, 7(6):1873-1890. |
| [23] | Jana Mendrok, Philippe Baron, Yasuko Kasaia. Studying the potential of terahertz radiation for deriving ice cloud microphysical information[C]//Remote Sensing of Clouds and the Atmosphere XIII, 2008, 7107:710704. |
| [24] | De Lucia F C, Petkie D T. THz gas sensing with submillimetertechniques[C]//SPIE, 2005, 5790:44-53. |
| [25] | De Lucia F C, Petkie D T. The physics and chemistry of THz sensors and imagers:long-standing applications, new opportunities, and pitfalls[C]//SPIE, 2005, 5989:598911. |
| [26] | Jacobsen R H, Mittleman D M, Nuss M C. Gas sensing using terahertz time-domain spectroscopy[J]. Opt Lett, 1996, 21(24):2011-2013. |
| [27] | Alexander Kellarev, Dan Sheffer. Terahertz remote sensing[C]//Terahertz Physics, Devices, and Systems V:Advance Applications in Industry and Defense, 2011:80230N. |
| [28] | Phillips T G, Keene J C. Submillimeter astronomy[C]//IEEE, 1992, 80(11):1662-1678. |
| [29] | Salomonovich A E, Solomonov S V, KhaikinA S, et al. Satellite measurements of submillimetre radiation of the earth's atmosphere[C]//Space research XVI:Proceedings of the Open Meetings of Working Groups on Physical Sciences and Symposium and Workshop on Results from Coordinated Upper Atmosphere Measurement Programs, 1976:155-159. |
| [30] | Salomonovich A E, Bakun V N, Kovalev V S, et al. A submillimeter telescope for the orbitalpiloted station Salyut-6[J]. Telecomm Radio Eng, 1979, 34(2):82-88. |
| [31] | Wilheit T T, A Al-Khalaf. A simplified interpretation of the radiances from the SSM/T-2[J]. Meteorology and Atmospheric Physics, 1994, 54(1):203-212. |
| [32] | Galin I, Brest D H, Martner G R. The DMSP SSMT/2microwave water-vapor profiler[C]//SPIE OE/Aerospace and RemoteSensing Int Symp, 1993. |
| [33] | Byung-Ju Sohn, Eui-Seok Chung, Johannes Schmetz, et al. Estimating upper-tropospheric water vapor from SSM/T-2 satellite measurements[J]. J Appl Meteor, 2003, 42:488-504. |
| [34] | Waters J W, Read W G, Froidevaux L, et al. The UARS and EOS microwave limb sounder (MLS) experiments[J]. Journal of the Atmospheric Sciences, 1998. 56:194-218. |
| [35] | Joe W Waters, Gordon E Peckham. The microwave limb sounder(MLS) experiments for UARS and EOS[J]. The International Society for Optical Engineering, 1991:543-546. |
| [36] | Hugh C Pumphrey, Hannah L Clark, Robert S Harwood. Lower stratospheric water vapor measured by UARS MLS[J]. Geophysical Research Letters, 2000, 27(12):1691-1694. |
| [37] | Barath F T, Chavez M C, Cofield R E, et al. The upper atmosphere research satellite microwave limb sounder instrument[J]. J Geophys Res, 1993, 98(10):751-762. |
| [38] | Neugebauer G, Habing H J, van Duinen R, et al. The infrared astronomical satellite(IRAS) mission[J]. Astrophys J, 1984, 278(2):L1-L6. |
| [39] | Murtagh Donal, Frisk Urban, Merino Frank, et al. An overview of the Odin atmospheric mission[J]. Canadian Journal of Physics, 2002, 80(4):357-368. |
| [40] | Ph Baron, Ph Ricaud, J de la No, et al. Studies for the Odin sub-millimetre radiometer. II:Retrieval methodology[J]. Canadian Journal of Physics, 2002, 80(4):341-356. |
| [41] | Urban J, Lautie N, Le Flochmoez E, et al. Odin/SMR limb observations of stratospheric trace gases:Validation of N2O[J]. Journal of Geophysical Research, 2005, 110:D09301-D09320. |
| [42] | Mark R Schoeberl, Anne R Douglass, Ernest Hilsenrath, et al. Overview of the EOS Aura mission[J]. IEEE Transactions on Geoscience and Remote Sensing, 2006, 44(5):1066-1074. |
| [43] | Krotkov N A, McLinden C A, Li C, et al. Aura OMI observations of regional SO2 and NO2 pollution changes from 2005 to 2014[J]. Atmos Chem Phys Discuss, 2015, 15:26555-26607. |
| [44] | Pickett H M. Microwave limb sounder THz module on Aura[J]. IEEE Transactions on Geoscience and Remote Sensing, 2006, 44(5):1122-1130. |
| [45] | Gaidis M C, Pickett H M, Smith C D, et al. A 2.5 THz receiver front-end for spaceborne applications[J]. IEEE Transactions on Microwave Theory Techniques, 2000, MTT-48(4):733-739. |
| [46] | Junji Inatani, Hiroyuki Ozeki, Ryouta Satoh, et al. Submillimeter limb-emission sounder JEM/SMILES aboard the Space Station[C]//Microwave Remote Sensing of the Atmosphere and Environment II, 2000, 4152:243. |
| [47] | Seta M, Masuko H, Manabe T, et al. Submillimeter-wave SIS receiver for JEM/SMILES[J]. Adv Space Res, 2000, 26(6):1021-1024. |
| [48] | Sagawa H, Sato T O, Baron P, et al. Comparison of SMILES ClO profiles with satellite, balloon-borneand ground-based measurements[J]. Atmos Meas Tech, 2013, 6:3325-3347. |
| [49] | Fujii Y, Kikuchi K, Inatani J, et al. Space-borne 640-GHz receiver based on 4-K mechanicalcooler[J]. Astronomical Telescopes and Instrumentation, 2000, 4013:90-99. |
| [50] | Perrin A, Puzzarini C, Colmont J M, et al. Molecular line parameters for the MASTER (Millimeter Wave Acquisitions for Stratosphere/Troposphere Exchange Research) database[J]. Journal of Atmospheric Chemistry, 2005, 51(2):161-205. |
| [51] | Matthew Oldfield, Brian P Moyna, Elie Allouis, et al. MARSCHALS:development of an airborne millimeter-wave limb sounder[C]//Sensors, Systems, and Next-Generation Satellites V, 2001, 4540:450663. |
| [52] | Eric Defer, Carlos Jimenez, Catherine Prigent. Sub-millimetre wave radiometry for cloud and rain characterization:from simulation to Earth observation mission concept[J]. C R Pyhsique, 2011, 10:1016-1023. |
| [53] | Joe K Taylor, Henry E Revercomb, Fred A Best, et al. The infrared cloud Ice radiometer (IRCIR)[C]//Infrared Technology and Applications XXXIII, 2007, 6542:65423H. |
| [54] | L'Ecuyer, Tristan S, Greenwald T, et al. Information content analysis in supportof a new infrared cloud ice radiometer for SIRICE[C]//Conference on Satellite Meteorology and Oceanography, 2006. |
| [55] | Buehler S A, Jimenez C, Evans K F, et al. A concept for a satellite mission to measure cloud ice water path, ice particle size, and cloud altitude[J]. Quarterly Journal of the Royal Meteorological Society, 2007, 133(S2):109-128. |
| [56] | Zhao Haibo, Zheng Cheng, Zhang Yongfang, et al. Information content analysis for the millimeter and sub-millimeter wave atmospheric sounding data from geostationary orbit[J]. Progress in Electromagnetics Research M, 2014, 35:183-191. |
| [57] | Buehler S A, Defer E, Evans F, et al. Observing ice clouds in the submillimeter spectral range:the Cloud Ice mission proposal for ESA's Earth Explorer 8[J]. Atmos Meas Tech, 2012, 5:1529-1549. |
| [58] | Brian Moyna, Clare Lee, Janet Charlton, et al. ISMAR:towards a submillimetre-wave airborne demonstrator for the observation ofprecipitation and ice clouds[C]//Twenty-First International Symposium on Space Terahertz Technology 2010:185. |
| [59] | Winnewisser G. Submillimeter wave spectroscopy in astronomy related to the ESA-project FIRST(Far InfraRed Submillimetre space Telescope)[C]//SPIE, 1986, 598:2-7. |
| [60] | Wellard S, Bingham G, Latvakoski H, et al. Far-infrared spectroscopy of the troposphere(FIRST):flight performance and data processing[J]. Infrared Spaceborne Remote Sensing XIV, 2006, 6297:62970Q. |
| [61] | Gert de Lange, Manfred Birk, Dick Boersma, et al. Development and characterization of the superconducting integrated receiver channel of the TELIS atmospheric sounder[J]. Supercond Sci Technol, 2010, 23(4):45016-45023. |
| [62] | Fuerholz P, Murk A. Phase-corrected near-fieldmeasurements of the TELIS telescope at 637 GHz[J]. IEEE Transactions on Antennas and Propagation, 2009, 57(9):2518-2525. |
| [63] | Suttiwong N, Birk M, Stefan B. Development and characterization of the balloon-borne instrument TELIS (TErahertz and Submm Limb Sounder):1.8 THz receiver[C]//Proceedings of the 19th ESA Symposium on European Rocket and Balloon Programsand Related Research, 2009:165-168. |
| [64] | Xu J, Schreier F, Vogt P, et al. A sensitivity study for far infrared balloon-borne limb emission sounding of stratospheric trace gases[J]. Geosci Instrum Method Data Syst Discuss, 2013, 3:251-303. |
| [65] | Evans K F, Walter S J, Heymsfield A J, et al. The submillimeter-wave cloud ice radiometer (SWCIR):Simulations of retrieval algorithm performance[J]. Journal of Geophysical Research-Atmospheres, 2002, 107:4028-4052. |
| [66] | Franklin Evans K, Steven J Walter, Andrew J Heymsfield, et al. Submillimeter-wave cloud ice radiometer:simulations of retrieval algorithm performance[J]. Journal of Geophysical Research, 2002, 107(D3):4028-4048. |
| [67] | Vanek M D, Nolt I G, Tappan N D, et al. Far-infrared sensor for cirrus(FIRSC):an aircraft-based Fourier-transform spectrometer to measure cloud radiance[J]. Appl Opt, 2001, 40(13):2169-2176. |
| [68] | Melnick G J, Dalgarno A, Fazio N R, et al. The submillimeter wave astronomy satellite:Science objectives and instrument description[J]. Astrophys J Lett, 2000, 539(2):L77-L85. |
| [69] | Evans K F, Wang J R, Starr D O'C, et al. Ice hydrometeor profile retrieval algorithm for high-frequency microwave radiometers:application to the CoSSIR instrument during TC4[J]. Atmospheric Measurement Techniques, 2012, 5:2277-2306. |
| [70] | Evans K F, Wang J R, Racette P E, et al. Ice cloud retrievals and analysis with the compact scanning submillimeter imaging radiometer and the cloud radar system during CRYSTAL FACE[J]. American Meteorological Society, 2005, 44:839-859. |
| [71] | Miao J, Johnsen K-P, Buehler S, et al. The potential of polarization measurements from space at mm andsub-mm wavelengths for determining cirrus cloud parameters[J]. Atmos Chem Phys, 2003, 3:39-48. |