Investigation of the atmosphere above the sea regarding laser performance

Insight in the performance of laser systems as function of weather is relevant for both civilian and military applications. This paper focuses on a long-term experiment to characterize laser propagation conditions over a near-surface, across-water optical link over the outer Bay of Eckernförde in the German part of the Baltic Sea. Turbulence was characterized with a boundary layer scintillometer (BLS), and it is shown that saturation effects occurred over this long optical path. The turbulence is primary driven by thermal forces and correlates best with the air-sea temperature difference. Simulations exploiting numerical mesoscale weather prediction tools agree favorably with the observations. The effect of the environment on beam divergence and power-in-the-bucket is discussed.

[1]  Edgar L. Andreas,et al.  Estimating Cn 2 over snow and sea ice from meteorological data , 1988 .

[2]  R. S. Lawrence,et al.  Saturation of optical scintillation by strong turbulence , 1974 .

[3]  J. Osborn,et al.  Mesoscale modelling of optical turbulence in the atmosphere: the need for ultrahigh vertical grid resolution , 2020, Monthly Notices of the Royal Astronomical Society.

[4]  Detlev Sprung,et al.  Global simulations of Cn2 using the weather research and forecast model WRF and comparison to experimental results , 2019, Optical Engineering + Applications.

[5]  J. Kleissl,et al.  Test of Scintillometer Saturation Correction Methods Using Field Experimental Data , 2010 .

[6]  R. A. Silverman,et al.  Wave Propagation in a Turbulent Medium , 1961 .

[7]  Detlev Sprung,et al.  Investigation of aerosols in South Africa: Comparison of measurements and modeling , 2018, Remote Sensing.

[8]  L. Andrews,et al.  Laser Beam Propagation Through Random Media , 1998 .

[9]  Karin R. Weiss-Wrana Turbulence statistics in littoral area , 2006, SPIE Remote Sensing.

[10]  R. Kennett,et al.  MODTRAN® 6: A major upgrade of the MODTRAN® radiative transfer code , 2014, 2014 6th Workshop on Hyperspectral Image and Signal Processing: Evolution in Remote Sensing (WHISPERS).

[11]  Renske Timmermans,et al.  The LOTOS?EUROS model: description, validation and latest developments , 2008 .

[12]  Detlev Sprung,et al.  The dependence of optical turbulence on thermal and mechanical forces over the sea , 2016, Optical Engineering + Applications.

[13]  Detlev Sprung,et al.  Inhomogeneity of optical turbulence over False Bay (South Africa) , 2017, Remote Sensing.

[14]  Detlev Sprung,et al.  Influence of aerosols on atmospheric transmission at the Baltic Sea: comparison of experimental results with model simulations using MODTRAN , 2015, SPIE Remote Sensing.