[1] MEKHRENGIN M V, MESHKOVSKII I K, TASHKINOV V A et al. Multispectral pyrometer for high temperature measurements inside combustion chamber of gas turbine engines. Measurement, 139, 355-360(2019).

[2] TANIGUCHI T, TANAKA R, SHINODA Y et al. Application of an optical pyrometer to newly developed industrial gas turbine, 795-802(2012).

[3] WINCHLER L, ANDREINI A, FACCHINI B et al. Conjugate heat transfer methodology for thermal design and verification of gas turbine cooled components. Journal of Turbomachinery, 140(2018).

[4] AO C Y, WANG Q, FENG C. Research on multi⁃spectral radiation temperature measurement technology for gas turbine blades. Ship Electronic Engineering, 40, 142-145(2020).

[5] HAN G Q, LIU X M, LEI X H et al. Application of optical fiber sensing in aero⁃engine temperature test. Chinese Journal of Scientific Instrument, 43, 145-164(2022).

[6] HAN Z Y. Preparation of 2.79 μm erbium⁃doped scandium gallium garnet single crystal fibers and investigation of cascade laser technology(2023).

[7] YU L. Study on Yb³+ / Tm3+ codoped YAG or Y2O3 single crystal fiber upconversion fluorescence temperature sensing technology(2018).

[8] SHEN Y H, TONG L, WANG Y Q et al. Sapphire⁃fiber thermometer ranging from 20 to 1 800 °C. Applied Optics, 38, 1139-1143(1999).

[9] ZHANG Z Y. Growth and properties of single crystal fiber based on LHPG method(2023).

[10] HEATH S, IMREGUN M. A review of analysis techniques for blade tip⁃timing measurements(1997).

[11] YAN Y L, DAI J, HUANG C F. Development for temperature measurement technology in modern aeroengine. Aeronautical Manufacturing Technology, 103-107(2015).

[12] HERGERT E. Photomultiplier tubes⁃Near⁃infrared photodetectors enable new applications. Laser Focus World, 40, 131-133(2004).

[13] DAI J M. Survey of radiation thermometry. Techniques of Automation and Applications, 23, 1-7(2004).

[14] WITHERELL P G, FAULHABER M E. The silicon solar cell as a photometric detector. Applied Optic, 9, 73-78(1970).

[15] RUFFINO G. Comparison of photomultiplier and Si photodiode as detectors in radiation pyrometry. Applied Optics, 10, 1241-1245(1971).

[16] BELOGUROV S, BRESSI G, CARUGNO G et al. InGaAs photodiode as an ionizing particle detector. Nuclear Instruments & Methods in Physics Research Section A⁃Accelerators Spectrometers Detectors and Associated Equipment, 1, 377-380(2000).

[17] ZHENG F, WANG F L, WANG C et al. Free⁃running InGaAs / InP single photon detector with feedback quenching IC. Nuclear Instruments & Methods in Physics Research Section A⁃Accelerators Spectrometers Detectors and Associated Equipmen, 799, 25-28(2015).

[18] ZHU Y, MI W, WANG D. Preparing gallium oxide⁃indium gallium arsenide ultraviolet⁃short wave infrared dual⁃band photoelectric detector， comprises growing N⁃type indium phosphide buffer layer on N⁃type indium phosphide substrate.

[19] TURNER D G, BAKKER T C, DIXON P et al. The development of. Infrared Technology and Applications， 34th Conference on Infrared Technology and Applications.

[20] WANG J J, HUANG C, GAO X et al. Inner and outer calibration technology of infrared radiation measurement. Infrared and Laser Engineering, 43, 1767-1771(2014).

[21] SHAO H Y, ZHANG Z L, MA X H et al. Design and application of dual⁃band specific color temperature measuring device. Laser & Optoelectronics Progress, 62(2025).

[22] PENG L J, YANG K T, ZHANG X H. Physical principles of optical temperature measurement technologies. Infrared, 1-4(2006).

[23] BALL D W. Wien's displacement law as a function of frequency. Journal of Chemical Education, 90, 1250-1252(2013).

[24] YUAN G B, FAN Z G, SUN X G et al. Approach method based on brightness temperature for multi⁃spectral thermometer, 75-84(2009).

[25] ZHAO C H. Design of flame temperature measurement system based on digital image processing(2003).

[26] ZHENG K F. Algorithm and system design of aeroengine turbine blade radiation temperature measurement(2021).

[27] WANG R K, AN B L, ZHAO Y L et al. Research on the measurement of material visible near⁃infrared spectral emissivity based on supercontinuum laser integrating sphere reflection. Acta Metrologica Sinica(2025). http：//kns.cnki.net/kcms/detail/11.1864.TB.20250105.1933.002.html.

[28] ZHAO X, JIA X, PEI L N et al. Study of the test methods of emission rates in different ambient temperature fields(2022).

[29] DING J W. Reasearch on infrared spectral emissivity characteristics of blackbody coatings(2023).

[30] WANG Y, XU D X, WANG Q X et al. Blackbody radiation source calibration system using the optical radiation zero⁃balance comparison method. Infrared Technology, 26-30(1999).

[31] ESTEVADEORDAL J, WANG G, NIRMALAN N et al. Multicolor techniques for identification and filtering of burst signals in jet engine pyrometers. Journal of Turbomachinery, 136(2014).

[32] XIONG B, SHI X J, CHEN H M et al. Emissivity measurement of aero⁃engine turbine blade. Gas Turbine Experiment and Research, 24, 45-48(2011).

[33] XIONG B, HOU M J, CHEN H M et al. Application of infrared thermometer in turbine blade temperature field. Gas Turbine Experiment and Research, 50-54(2008).

[34] TANG T. Research on radiation thermometry and its application in temperature measurement of falling tubes(2005).

[35] MI S T, ZHANG Y C, FU X B et al. An infrared temperature measurement compensation method based on emissivity correction model. Acta Metrologica Sinica, 45, 164-169(2024).

[36] WEI S L, QIU M Q, CHENG F Y et al. Research on algorithm compensation of emissivity to infrared temperature sensor measurement precision. Transducer and Microsystem Technologies, 43, 39-41(2024).

[37] WU B. The research of thermal radiation temperature measurement techniques(2012).

[38] GAO X C. Software design of gas turbine blade measurement system(2011).

[39] QI W J. Effect of emissivity on accuracy of infrared temperature measurement(2006).

[40] ZHANG Z Z. Research of high⁃accuracy infrared radiation thermometry(2023).

[41] LI Y H, MA R, ZHANG H et al. Dual waveband colori⁃metric temperature accurate measurement technology. Infrared and Laser Engineering, 44, 27-35(2015).

[42] ZHANG C G. The research of infrared radiation temperature measurement key techniques(2013).

[43] HUANG Z C, LI X E, ZHAO X Q. Research on the optimal band and temperature measurement accuracy of temperature measurement method. Laser & Infrared, 53, 1871-1876(2023).

[44] YAN B, HAO X J, ZHOU H C. Intellectual colorimetric temperature measurement system. Electro⁃Optic Technology Application, 28, 3-5(2013).

[45] CHEN K D. Research on temperature field measurement system based on CCD image sensor(2010).

[46] CHEN M M, TAN C W, TANG Y P et al. Research on reconstruction technology of temperature field in engine combustion chamber based on image thermometry. Comptes Rendus De L Academie Bulgare Des Sciences, 76, 1084-1091(2023).

[47] KURIHARA N, NISHIKAWA M, WATANABE A et al. A combustion diagnosis method for pulverized coal boilers using flame⁃image recognition technology. IEEE Transactions on Energy conversion, 99-103(1986).

[48] WANG Z T, DAI J M, YANG S. Research on multi⁃spectral thermal imager explosion flame true. Spectroscopy and Spectral Analysis, 43, 3885-3890(2023).

[49] SUN Y, PENG X Q, LI S et al. Research on dynamic range of CCD radiation temperature measurement. Transducer and Microsystem Technologies, 24-26(2008).

[50] WANG F, SHEN X J, CHEN W G et al. A new method of measuring the CCD device photoresponse nonuniformity, 295-296(1998).

[51] BÜNGER L, ANHALT K, TAUBERT R D et al. Traceability of a ccd⁃camera system for high⁃temperature measurements. International Journal of Thermophysics, 36, 1784-1802(2015).

[52] SUN Y, PENG X Q, YAN J. High⁃temperature field radiation thermometry based on colored CCD. Chinese Journal of Scientific Instrument, 32, 2579-2584(2011).

[53] YANG Y, YU Z F, XU J Y et al. Measuring method of ablative model's temperature and emissivity based on CCD camera image. Journal of Experiments in Fluid Mechanics, 39, 1-7(2025).

[54] CHEN J L, JIANG H Y, YI F Z et al. Improved visible near⁃infrared colorimetric thermometry system and performance evaluation. Metrology Science and Technology, 66, 53-58(2022).

[55] ZHU Z Z, SHEN H, WANG N et al. Transient measure technique for excitation temperature and radiation temperature based on multi⁃spectral method. Spectroscopy and Spectral Analysis, 38, 333-339(2018).

[56] LI D J, DING C J, PAN Y et al. Temperature measurement of transducer bridge by multispectral radiation thermometry. Initiators & Pyrotechnics, 84-90(2024).

[57] USAMENTIAGA R, GARCÍA D F, MOLLEDA J et al. Temperature measurement using the wedge method： comparison and application to emissivity estimation and compensation. IEEE Transactions on Instrumentation and Measurement, 60, 1768-1778(2010).

[58] ZHANG X Q. Research on infrared radiation temperature measurement method of turbine blades based on effective emissivity(2023).

[59] FRALICK G. Use of a multiwavelength pyrometer in several elevated temperature aerospace applications. Review of Scientific Instruments, 72, 1522-1530(2001).

[60] CUI Y, QIU K X, GAO S et al. Advances in the application of non⁃contact temperature measurement technology for aero⁃engine blade. Review of Scientific Instruments, 95(2024).

[61] LI W K, ZHOU L, LIU C H et al. Infrared spectral radiation based on distance correction temperature measurement method for small target medium⁃wave. Spectroscopy and Spectral Analysis, 44, 1158-1164(2024).

[62] BALL K S, TAN G Y. Comparison of silicon wafer temperature measurements using thin film thermocouples and light pipe radiation thermometers in a thermometry test bed, 75(2002).

[63] ZHANG T Y, WU J W, FANG H Y et al. Infrared temperature measurement of aircraft turbine blade surface. Energy Conservation Technology, 41, 195-202(2023).

[64] CHEN M M, JIANG H Y, CAI X C et al. Research on temperature field reconstruction technology for single⁃dome combustion chambers based on flame image. Frontiers in Materials, 11(2024).

[65] YAN J H, LI W T. Error correction research of colorimetric temperature⁃measurement based on CCD, 5649-5652(2012).

[66] ZHU Z Z, SHEN H, WANG N et al. Transient measure technique for excitation temperature and radiation temperature based on multi⁃spectral method. Spectroscopy and Spectral Analysis, 38, 333-339(2018).

[67] WANG Y T, ZHU Y J. Temperature and displacement measurement system with fiber optic sensors for turbine blades, 6280, 1-2(2006).

[68] ARKAN K H. Experimental study of radiation from coated turbine blades(1990).

[69] FRANK S L, HOLT T O, EISENLOHR H et al. Application of a high resolution turbine pyrometer to heavy duty gas turbines, 8(2001).

[70] FRANK S L. Surface temperature mapping of gas turbine blading by means of high⁃resolution pyrometry. Annals⁃New York Academy of Sciences, 934, 257-264(2001).

[71] ESTEVADEORDAL J, NIRMALAN N, WANG G et al. Multi⁃color pyrometry techniques for characterization of spall in heavy duty gas turbine engines(2011).

[72] WANG G, ESTEVADEORDAL J, NIRMALAN N et al. Real⁃time burst signal removal using multicolor pyrometry based filter for improved jet engine control. Journal of Turbomachinery, 137(2015).

[73] GONZALEZ A Y, PILGRIM C C, FEIST J PET AL. On⁃line temperature measurement inside a thermal barrier sensor coating during engine operation. Journal of Turbomachinery⁃Transactions of the Asme, 137(2015).

[74] DAI J M. Study of the technique of multispectral radiation thermometry(1995).

[75] SUN X G, ZHAO W, YUAN G B et al. Methods of data processing in multi⁃wavelength thermometry. Journal of Harbin Institute of Technology, 421-426(2006).

[76] LI Y H, SUN X G, YANG X F et al. Theoretical analysis on the technics of temperature measurement precision with infrared thermal imager. Journal of Xi'an Polytechnic University, 635-639(2007).

[77] GAO S, FENG C, WANG L et al. Multi⁃spectral temperature measurement method for gas turbine blade. Optical Review, 23, 17-25(2016).

[78] DANIEL K, FENG C, GAO S. Application of multispectral radiation thermometry in temperature measurement of thermal barrier coated surfaces. Measurement, 92, 218-223(2016).

[79] KIPNGETICH K D, FENG C, GAO S. Reflection error correction of gas turbine blade temperature. Infrared Physics & Technology, 75, 153-159(2016).

[80] FENG C, SU H Y, GAO G F et al. Turb blade temperature measurement system with fiber. Applied Science and Technology, 36, 33-36(2009).

[81] LI Z W, FENG C. Design and implementation of infrared temperature measurement system. Applied Science and Technology, 37, 24-28(2010).

[82] LI X F. Research on non⁃contact testing technology of turbine blade temperature(2023).

[83] YE Z P, LI X F, LIU Y et al. Numerical simulation research on the protective performance of infrared thermometer probes. Journal of Engineering Thermophysics, 45, 205-211(2024).

[84] KERR C, IVEY P. Optical pyrometry for gas turbine aeroengines. Sensor Review, 24, 378-386(2004).

[85] HORIUCHI T, TANIGUCHI T, TANAKA R et al. Application of conjugate heat transfer analysis to improvement of cooled turbine vane and blade for industrial gas turbine(2018).

[86] TANAKA R, KOJI T et al. Development of high efficient 30MW class gas turbine： the Kawasaki L30A, 2012, 883-889(2012).

[87] XU C L, PIAO C J, WANG L et al. The engine low pressure turbine blade temperature distribution measurement based on the infrared pyrometer technology. Aeroengine, 44, 75-78(2018).

[88] ZHENG K F, LÜ J G, ZHAO Y Z et al. Turbine blade three⁃wavelength radiation temperature measurement method based on reflection error correction. Applied Sciences⁃Basel, 11(2021).

[89] DUAN P C, GUAN J G, SUN P et al. Three⁃dimensional radiation thermometry for dynamic combustion field based on multi⁃CCD synchronous coupling. Infrared and Laser Engineering, 51, 51-60(2022).

[90] GAO S, XIONG X M, LIU H L et al. Overview of temperature measurement methods for engine turbine blades based on infrared radiation. Metrology & Measurement Technology, 44, 1-28(2024).