6533b7d1fe1ef96bd125c02d

RESEARCH PRODUCT

Measured and predicted light attenuation in dense coastal upslope fog at 650, 850, and <inline-formula><math display="inline" overflow="scroll"><mrow><mn>950</mn><mspace width="0.3em" /><mi>nm</mi></mrow></math></inline-formula> for free-space optics applications

Christoph ChlestilBenno FleckerHervé SizunMaher Al NaboulsiErich LeitgebFrédérique De FornelMichael GebhartSajid Sheikh Muhammad

subject

Optical testingbusiness.industryAttenuationGeneral EngineeringAtmospheric modelLight attenuationAtomic and Molecular Physics and OpticsWavelengthOpticsAtmospheric propagationTransmission (telecommunications)Environmental sciencebusinessFree-space optical communication

description

Free-space optics FSO has gained considerable importance in this decade of demand for high-bandwidth transmission capabilities. FSO can provide the last mile solution, but the availability and reliability issues concerned with it have received increasing attention and need thorough investigation. In this work, we present our results on fog attenu- ation measurement and prediction at wavelengths 650, 850, and 950 nm with peak values up to 500 dB/km. For the attenuation measurement, optical wavelengths are transmitted over the same path of fog in free air to a receiver, measuring the power at every wavelength. The measure- ment of fog attenuation was performed at the France Telecom RD free-space optics; atmospheric propagation; fog attenu- ation prediction; meteorological range; availability.

yearjournalcountryeditionlanguage
2008-03-01Optical Engineering
https://doi.org/10.1117/1.2899023