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    Journals >Acta Optica Sinica >Volume 37 >Issue 9 >Page 0930002 > Article
    • Acta Optica Sinica
    • Vol. 37, Issue 9, 0930002 (2017)
    Calibration-Free One-Line Method Based on WavelengthModulation Spectroscopy
    Yongquan Xiong*, Bin Zhou, Yihong Wang, Hao Wang, Bubin Wang, Heyao Cheng, and Shimin Wang
    Author Affiliations
  • School of Energy and Environment, Southeast University, Nanjing, Jiangsu 210096, China
    • show less
    DOI: 10.3788/AOS201737.0930002 Cite this Article Set citation alerts
    Yongquan Xiong, Bin Zhou, Yihong Wang, Hao Wang, Bubin Wang, Heyao Cheng, Shimin Wang. Calibration-Free One-Line Method Based on WavelengthModulation Spectroscopy[J]. Acta Optica Sinica, 2017, 37(9): 0930002 Copy Citation Text show less
    Schematic of measuring etalon signal Iv(t), absorption signal ItM(t) and background signal I0M(t)
    Fig. 1. Schematic of measuring etalon signal Iv(t), absorption signal ItM(t) and background signal I0M(t)
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    Simulated variation of R2f/p' with mole fraction of CO2
    Fig. 2. Simulated variation of R2f/p' with mole fraction of CO2
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    Simulated variation of R2f/p' with temperature
    Fig. 3. Simulated variation of R2f/p' with temperature
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    Doppler width, collisional width and Voigt width at different temperatures
    Fig. 4. Doppler width, collisional width and Voigt width at different temperatures
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    Flow chart of iterative calculation using calibration-free one-line method
    Fig. 5. Flow chart of iterative calculation using calibration-free one-line method
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    Relative sensitivity RΔVD of R(50) spectrum line at different temperatures
    Fig. 6. Relative sensitivity RΔVD of R(50) spectrum line at different temperatures
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    Schematic of experimental setup
    Fig. 7. Schematic of experimental setup
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    Simulated (a) R2f/1f and (b) R2f/p' located at R(50) spectrum line at different mole fractions of CO2
    Fig. 8. Simulated (a) R2f/1f and (b) R2f/p' located at R(50) spectrum line at different mole fractions of CO2
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    Iterative calculation of temperature and mole fraction of CO2. (a) Measured and fitted R2f/p'; (b) relative residual; (c) measured R2f/1f; (d) iterative convergence process of temperature;(e) iterative convergence process of mole fraction of CO2
    Fig. 9. Iterative calculation of temperature and mole fraction of CO2. (a) Measured and fitted R2f/p'; (b) relative residual; (c) measured R2f/1f; (d) iterative convergence process of temperature;(e) iterative convergence process of mole fraction of CO2
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    Measured (a) R2f/p' and (b) R2f/1f at different temperatures
    Fig. 10. Measured (a) R2f/p' and (b) R2f/1f at different temperatures
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    Measured results using calibration-free one-line method. (a) Measured temperature; (b) xm/xa
    Fig. 11. Measured results using calibration-free one-line method. (a) Measured temperature; (b) xm/xa
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    Abstract
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    References (23)
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    Yongquan Xiong, Bin Zhou, Yihong Wang, Hao Wang, Bubin Wang, Heyao Cheng, Shimin Wang. Calibration-Free One-Line Method Based on WavelengthModulation Spectroscopy[J]. Acta Optica Sinica, 2017, 37(9): 0930002
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    Paper Information
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