[1] Tittel F K, Richter D, Fried A. Mid-infrared laser applications in spectroscopy[M]. Sorokina I T, Vodopyanov K L. Topics in applied physics, 89, 458-529(2003).
[2] Jean B, Bende T. Mid-IR laser applications in medicine[M]. Sorokina I T, Vodopyanov K L. Topics in applied physics, 89, 530-565(2003).
[3] Meng D D, Zhang H B, Li M S et al. Laser technology for direct IR countermeasure system[J]. Infrared and Laser Engineering, 47, 1105009(2018).
[4] Zhou S, Li M Z, Jiang J et al. Solid-state mid-infrared laser technology research progress[J]. Infrared Technology, 41, 391-399(2019).
[5] Hu M L, Cai Y. Research progress on mid-infrared ultrafast fiber laser[J]. Chinese Journal of Lasers, 47, 0500009(2020).
[6] Kapany N S, Simms R J. Recent developments in infrared fiber optics[J]. Infrared Physics, 5, 69-80(1965).
[7] Harrington J A. A review of IR transmitting, hollow waveguides[J]. Fiber and Integrated Optics, 19, 211-227(2000).
[8] Katagiri T, Matsuura Y, Miyagi M. Metal-covered photonic bandgap multilayer for infrared hollow waveguides[J]. Applied Optics, 41, 7603-7606(2002).
[9] Cregan R F, Mangan B J, Knight J C et al. Single-mode photonic band gap guidance of light in air[J]. Science, 285, 1537-1539(1999).
[10] Wang M L, Gao S F, Wang Y Y et al. UV guiding hollow-core antiresonant fiber[J]. Chinese Journal of Lasers, 47, 0806002(2020).
[11] Gao S F, Wang Y Y, Liu X L et al. Hollow-core anti-resonant fiber and its use for propagation of high power ultrashort pulse[J]. Chinese Journal of Lasers, 44, 0201012(2017).
[12] Shephard J, Macpherson W, Maier R et al. Single-mode mid-IR guidance in a hollow-core photonic crystal fiber[J]. Optics Express, 13, 7139-7144(2005).
[13] Urich A, Maier R R, Yu F et al. Flexible delivery of Er∶YAG radiation at 2.94 µm with negative curvature silica glass fibers: a new solution for minimally invasive surgical procedures[J]. Biomedical Optics Express, 4, 193-205(2013).
[14] Cao L, Gao S F, Peng Z G et al. High peak power 2.8 μm Raman laser in a methane-filled negative-curvature fiber[J]. Optics Express, 26, 5609-5615(2018).
[15] Wang F F, Nie H K, Liu J T et al. Miniaturized widely tunable MgO∶PPLN nanosecond optical parametric oscillator[J]. Chinese Journal of Lasers, 48, 0501015(2021).
[16] Johansen I R, Lines G T, Honne A et al. Calibration of an FT-IR spectrometer for ambient air monitoring using PLS[J]. Applied Spectroscopy, 51, 1540-1546(1997).
[17] Li M Y, Wang F, Zhang Y Q. Measurement of nitric oxide with low concentration based on mid-infrared laser absorption spectroscopy[J]. Laser & Optoelectronics Progress, 55, 053002(2018).
[18] Rothman L S, Gordon I E, Barber R J et al. HITEMP, the high-temperature molecular spectroscopic database[J]. Journal of Quantitative Spectroscopy and Radiative Transfer, 111, 2139-2150(2010).
[19] Yao C Y, Gao S F, Wang Y Y et al. Silica hollow-core negative curvature fibers enable ultrasensitive mid-infrared absorption spectroscopy[J]. Journal of Lightwave Technology, 38, 2067-2072(2020).
[20] Yu F, Song P, Wu D K et al. Attenuation limit of silica-based hollow-core fiber at mid-IR wavelengths[J]. APL Photonics, 4, 080803(2019).
[21] Friedlingstein P, O’Sullivan M, Jones M W et al. Global carbon budget 2020[J]. Earth System Science Data, 12, 3269-3340(2020).