论文信息 - Signal-to-noise Ratio of Heterodyne Lidar Systems in the Presence of Atmospheric Turbulence

Signal-to-noise Ratio of Heterodyne Lidar Systems in the Presence of Atmospheric Turbulence

A general expression for the signal-to-noise ratio of a heterodyne lidar system in the presence of atmospheric turbulence is derived which is valid in both the near and far fields of the laser and remote scattering source. We consider the situation where a laser transmitter directs an optical beam at some remote scattering region of interest. The back-scattered light is collected by a receiving aperture and mixed with a suitable coherent local oscillator reference field. Both coaxial and bistatic lidar systems are considered. In both cases we are able to obtain algebraic expressions for the signal-to-noise ratio which are valid for an arbitrary propagation path through the atmosphere. Numerical results are presented for both a 3·7 and a 10·6 w m lidar system. Additionally, we obtain the conditions under which atmospheric turbulence will severely limit the performance of meterodyne lidar systems.

H. T. Yura | H. Yura

[1] R. Lutomirski,et al. Propagation of a finite optical beam in an inhomogeneous medium. , 1971, Applied optics.

[2] R. Fante. Electromagnetic beam propagation in turbulent media , 1975, Proceedings of the IEEE.

[3] Anthony E. Siegman,et al. The antenna properties of optical heterodyne receivers , 1966 .

[4] F. V. Bunkin,et al. Laser irradiance propagation in turbulent media , 1975, Proceedings of the IEEE.

[5] Emil Wolf,et al. Principles of Optics: Contents , 1999 .

[6] D. L. Fried,et al. Optical heterodyne detection of an atmospherically distorted signal wave front , 1967 .

[7] E. David Hinkley,et al. Laser monitoring of the atmosphere , 1976 .

[8] R. Lee,et al. Weak scattering in random media, with applications to remote probing , 1969 .

[9] H. Yura,et al. Mutual coherence function of a finite cross section optical beam propagating in a turbulent medium. , 1972, Applied optics.

[10] V. I. Tatarskii. The effects of the turbulent atmosphere on wave propagation , 1971 .