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    Journals >Acta Optica Sinica >Volume 38 >Issue 12 >Page 1201002 > Article
    • Acta Optica Sinica
    • Vol. 38, Issue 12, 1201002 (2018)
    Simulation Analysis on Effect of Aurora on Limb Infrared Radiation of Middle and Upper Atmosphere
    Dong Liu1、2、*, Congming Dai1、*, Chaoli Tang1、2, and Heli Wei1、2
    Author Affiliations
  • 1 Key Laboratory of Atmospheric Optics, Anhui Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, Hefei, Anhui 230031, China
  • 2 Science Island Branch of Graduate School, University of Science and Technology of China, Hefei, Anhui 230026, China
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    DOI: 10.3788/AOS201838.1201002 Cite this Article Set citation alerts
    Dong Liu, Congming Dai, Chaoli Tang, Heli Wei. Simulation Analysis on Effect of Aurora on Limb Infrared Radiation of Middle and Upper Atmosphere[J]. Acta Optica Sinica, 2018, 38(12): 1201002 Copy Citation Text show less
    Schematic of infrared limb radiance measurement of middle and upper atmosphere
    Fig. 1. Schematic of infrared limb radiance measurement of middle and upper atmosphere
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    Limb radiance profiles at different CO2 spectral bands. (a) 4.3 μm; (b) 2.7 μm
    Fig. 2. Limb radiance profiles at different CO2 spectral bands. (a) 4.3 μm; (b) 2.7 μm
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    Time evolution of limb radiance at CO2 4.3 μm for 100 km tangent altitude
    Fig. 3. Time evolution of limb radiance at CO2 4.3 μm for 100 km tangent altitude
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    Limb radiance profiles at different CO2 spectral bands. (a) 15 μm; (b) 10 μm
    Fig. 4. Limb radiance profiles at different CO2 spectral bands. (a) 15 μm; (b) 10 μm
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    Limb radiance profiles at NO+ 4.3 μm and its contribution percentage in total auroral enhancement. (a) Radiance profile; (b) contribution percentage
    Fig. 5. Limb radiance profiles at NO+ 4.3 μm and its contribution percentage in total auroral enhancement. (a) Radiance profile; (b) contribution percentage
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    Spectra of limb radiance at CO2 and NO+ 4.3 μm for 100 km tangent altitude
    Fig. 6. Spectra of limb radiance at CO2 and NO+ 4.3 μm for 100 km tangent altitude
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    Time evolution of limb radiance at NO+ 4.3 μm for 100 km tangent altitude
    Fig. 7. Time evolution of limb radiance at NO+ 4.3 μm for 100 km tangent altitude
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    Limb radiance profiles at different NO spectral bands. (a) 5.3 μm; (b) 2.7 μm
    Fig. 8. Limb radiance profiles at different NO spectral bands. (a) 5.3 μm; (b) 2.7 μm
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    Spectra of limb radiance at different NO spectral bands for 110 km tangent altitude. (a) 5.3 μm; (b) 2.7 μm
    Fig. 9. Spectra of limb radiance at different NO spectral bands for 110 km tangent altitude. (a) 5.3 μm; (b) 2.7 μm
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    Time evolution of limb radiance at different NO spectral bands for 110 km tangent altitude. (a) 5.3 μm; (b) 2.7 μm
    Fig. 10. Time evolution of limb radiance at different NO spectral bands for 110 km tangent altitude. (a) 5.3 μm; (b) 2.7 μm
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    Comparison between simulated and measurement data of SABER event
    Fig. 11. Comparison between simulated and measurement data of SABER event
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    Band nameWavenumber /cm-1Wavelength /μmRadiator
    2.7 μm band3000-38002.6-3.3CO2、NO
    4.3 μm band2000-25004.0-5.0CO2、NO+
    5.3 μm band1400-20005.0-7.1NO
    10 μm band900-11009.1-11.1CO2
    15 μm band600-75013.3-16.7CO2
    Table 1. Spectral ranges of all infrared bands
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    Dong Liu, Congming Dai, Chaoli Tang, Heli Wei. Simulation Analysis on Effect of Aurora on Limb Infrared Radiation of Middle and Upper Atmosphere[J]. Acta Optica Sinica, 2018, 38(12): 1201002
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