Vertical Dependence of Refractive Index Structure Constant in Lowest Troposphere

被引:9
|
作者
Grabner, Martin [1 ]
Kvicera, Vaclav [1 ]
Pechac, Pavel [2 ]
Jicha, Otakar [2 ]
机构
[1] Czech Metrol Inst, Frequency Engn Dept, Prague 14801 4, Czech Republic
[2] Czech Tech Univ, Dept Electromagnet Field, Prague 16627 6, Czech Republic
来源
IEEE ANTENNAS AND WIRELESS PROPAGATION LETTERS | 2011年 / 10卷
关键词
Atmospheric refractivity; microwave propagation; scintillation; structure constant; LINKS; SCINTILLATION;
D O I
10.1109/LAWP.2011.2178809
中图分类号
TM [电工技术]; TN [电子技术、通信技术];
学科分类号
0808 ; 0809 ;
摘要
Vertical profiles of atmospheric refractivity are indirectly measured at heights of up to 150 m above the ground using meteorological sensors located at 19 heights. The structure constant of the refractive index is calculated from data measured over a one-year period using its definition relation. Linear regression in heights is applied to a structure constant vertical dependence to obtain single and joint annual statistics of the near ground value of and of its vertical gradient in the lowest troposphere. Approximate probability models are given with being log-normal and the vertical gradient normally distributed.
引用
收藏
页码:1473 / 1475
页数:3
相关论文
共 50 条
  • [41] A synchronous measurement technique for the evaluation of atmospheric extinction coefficient and refractive index structure constant
    Jiang, Dagang
    Deng, Ke
    Zhang, Peng
    Yao, Zhoushi
    Li, Xiaofeng
    Qin, Kaiyu
    OPTICS COMMUNICATIONS, 2014, 311 : 288 - 293
  • [42] Long-term Measurements of Refractive Index Structure Constant in Atmospheric Boundary Layer
    Jicha, Otakar
    Pechac, Pavel
    Zvanovec, Stanislav
    Grabner, Martin
    Kvicera, Vaclav
    OPTICS IN ATMOSPHERIC PROPAGATION AND ADAPTIVE SYSTEMS XV, 2012, 8535
  • [43] Estimation and characterization of the refractive index structure constant within the marine atmospheric boundary layer
    Zhang, Hanjiu
    Zhu, Liming
    Sun, Gang
    Zhang, Kun
    Xu, Manman
    Liu, Nana
    Chen, Duolong
    Wu, Yang
    Cui, Shengcheng
    Luo, Tao
    LI, Xuebin
    Weng, Ningquan
    APPLIED OPTICS, 2022, 61 (33) : 9762 - 9772
  • [44] INVESTIGATION OF REFRACTIVE INDEX STRUCTURE OF TURBULENT TROPOSPHERE USING A CORRELATION ANALYSIS OF RECEIVED FIELD DURING SCATTER TRANSMISSION
    FEHLHABE.L
    GROSSKOP.J
    NTZ-COMMUNICATIONS JOURNAL, 1965, 4 (06): : 292 - +
  • [45] PRESSURE-DEPENDENCE OF THE REFRACTIVE-INDEX AND DIELECTRIC-CONSTANT IN A FLUOROPEROVSKITE, KMGF3
    UCHINO, K
    NOMURA, S
    VEDAM, K
    NEWNHAM, RE
    CROSS, LE
    PHYSICAL REVIEW B, 1984, 29 (12): : 6921 - 6925
  • [46] Nonlinear refractive index pulsewidth dependence in the atmosphere
    Munera, Natalia
    Tofighi, Salimeh
    Hagan, David J.
    Van Stryland, Eric W.
    2020 IEEE RESEARCH AND APPLICATIONS OF PHOTONICS IN DEFENSE CONFERENCE (RAPID), 2020,
  • [47] Temperature dependence of the refractive index of optical fibers
    王智勇
    邱琪
    史双瑾
    Chinese Physics B, 2014, (03) : 260 - 264
  • [48] THEORY OF INTENSITY DEPENDENCE OF REFRACTIVE-INDEX
    MOSS, TS
    PHYSICA STATUS SOLIDI B-BASIC RESEARCH, 1980, 101 (02): : 555 - 561
  • [49] Size dependence of refractive index of gold nanoparticles
    Scaffardi, LB
    Tocho, JO
    NANOTECHNOLOGY, 2006, 17 (05) : 1309 - 1315
  • [50] Frequency and temperature dependence of the refractive index of sapphire
    Johns Hopkins Univ Applied Physics, Lab, Laurel, United States
    Infrared Phys Technol, 4 (235-249):
12345