Jiangxiong Long scite author profile

Jiangxiong Long

3Publications

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National University of Defense Technology, PLA Army Engineering University

Publications

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Measurement research of line intensity and self-broadening coefficient for NH3 spectra in 4296–4302 cm–1

Long¹,

Shao²,

Zhang³

et al. 2022

Acta Phys. Sin.

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Spectral parameters of NH3 in the range of 4296-4302 cm-1 in the HITRAN database are different from the actual situation as they are mainly derived from theoretical calculations. In order to correct the spectral parameters of NH3 in this range in HITRAN, tunable diode laser absorption spectroscopy (TDLAS) technology and metrological theory are applied to measure the absorption spectrum high-purity NH3 in the range of 4296-4302 cm-1 at 2-10 Torr. The line intensity and self-broadening coefficient of the main absorption lines of NH3 in this band are retrieved and their uncertainty are calculated by comprehensive consideration of main factors including pressure, temperature, optical path of gas cell, wavenumber and line shape fitting. The deviations between our measured line intensities and latest peer-measured results are within 20%. The biases between our self-broadening coefficients and the ones in HITRAN2020 are within 14%. Their uncertainties are in the range of the 0.63-2.7% and 0.77-5.4%, respectively, which are smaller than the uncertainty range of 10-20% in the HITRAN database. Some of the measured spectral parameters are not recorded in HITRAN. The experimental results in this paper are of significant reference to supplement and correct the HITRAN spectral parameters of NH3 in the range of 4296-4302 cm-1.

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Injection-Seeded 500 Hz Repetition Rate High Peak Power Single-Frequency Nd:YAG Laser for Mid-Infrared Generation

Long

Yang³

et al. 2018

J Russ Laser Res

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Baseline-free direct absorption spectroscopy and its application in line intensity measurement of ammonia

Long

Zhang

Shao

et al. 2022

Optics Communications

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Jiangxiong Long

Measurement research of line intensity and self-broadening coefficient for NH<sub>3</sub> spectra in 4296–4302 cm<sup>–1</sup>

Injection-Seeded 500 Hz Repetition Rate High Peak Power Single-Frequency Nd:YAG Laser for Mid-Infrared Generation

Baseline-free direct absorption spectroscopy and its application in line intensity measurement of ammonia

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