Your search keyword '"XU Chun-yan"' showing total 2 results

1. A new model for the profiles of optical turbulence outer scale and Cn2 on the coast

Author

Xu Chun-Yan, Wu Xiao-Qing, Cai Jun, Zhan Guo-Wei, Li Xue-Bin, Qing Chun, and Wu Peng-Fei

Subjects

Scale (ratio), Turbulence, General Physics and Astronomy, Wind direction, Atmospheric sciences, 01 natural sciences, Wind speed, law.invention, 010309 optics, Depth sounding, law, Wind shear, 0103 physical sciences, Radiosonde, Environmental science, 010303 astronomy & astrophysics, Scale model, Physics::Atmospheric and Oceanic Physics

Abstract

Atmospheric optical turbulence severely restricts the performances of electro-optical systems. The turbulent atmosphere causes the intensity of a light beam to fluctuate or scintillate, leads the light beam to wander and makes the images randomly displace, which directly relates to the refractive index structure parameter Cn2. Therefore the knowledge of Cn2 is essential to evaluate and to predict the effects of optical turbulence on electro-optical imagery systems. During the period from December 13, 2016 to January 2, 2017, 30 sets of sounding data, which include temperatures, humidities, pressures, wind speeds, wind directions and atmospheric refractive index structure parameters, are obtained by using a self-developed meteorological radiosonde for turbulence at Marine Meteorological Science Experiment Base at Bohe of Maoming. On the basis of the HMNSP99 outer scale model, an atmospheric optical turbulence outer scale formula of Maoming is obtained by fitting the sounding data. At the same time, the experimental data of the turbulence profiles are statistically averaged, and then based on the Hufnagel-Valley model, a statistical model is obtained, which is appropriate to the variation of the turbulence profile on the coast. According to Tatarski turbulence parameterization and the Maoming outer scale formula, the new estimated Cn2 values are compared with their experimental observations and the results from other already defined models, respectively. Statistical analysis shows that the overall correlation coefficients of log10(Cn2) between observed values and estimated values by using the new fitting Maoming outer scale formula, the HMNSP99 model, the Dewan model and the Coulman model are 0.924, 0.848, 0.763 and 0.651, respectively. Also, both the trends and magnitudes for these four outer scale models are consistent with each other. The errors of the above four outer scale models are very small:their overall average absolute errors and average relative errors are 0.514 and 2.963%, 0.627 and 3.612%, 0.943 and 5.439%, 0.766 and 4.417%, respectively, and the error of the Maoming outer scale model is smallest. The reliabilities and validities of the new outer scale and Cn2 models are further verified. In addition, it is found that the occurrence of upper air optical turbulence is closely related to wind shear and temperature gradient. The results support the prediction of the atmospheric optical turbulence profile required for electro-optical engineering on the coast.

Published

2018

2. Perturbation study via rotational-resolved spectrum in the triplet band d 3 Δ− a 3 Π (2, 1) of CO

Author

Li Wei, Wu Ling, Chen Yang-Qin, Yang Xiao-Hua, Xu Chun-Yan, and Guo Ying-Chun

Subjects

Physics, Near-infrared spectroscopy, General Physics and Astronomy, Perturbation (astronomy), Molecule, Atomic physics

Abstract

The triplet band d3Δ−a3Π (2, 1) of the CO molecule in the near infrared region of 12350–12850cm−1 has been observed and analysed by taking into account the perturbation interaction between the d3Δ(v= 2) and a3Π (v= 9) states. The most perturbed lines and most precise perturbation parameters, α2 and β2 and electronic perturbation constants, ξe and ηe, for the d3Δ (v= 2) and a3Π (v= 9) states have been obtained.

Published

2005