Analysis of a random modulation single photon counting differential absorption lidar system for space-borne atmospheric CO_2 sensing

X. Ai, A. Pérez-Serrano, M. Quatrevalet, R. W. Nock, N. Dahnoun, G. Ehret, I. Esquivias, J. G. Rarity
2016 Optics Express  
The ability to observe the Earth's carbon cycles from space provides scientists an important tool to analyze climate change. Current proposed systems are mainly based on pulsed integrated path differential absorption lidar, in which two high energy pulses at different wavelengths interrogate the atmosphere sequentially for its transmission properties and are back-scattered by the ground. In this work an alternative approach based on random modulation single photon counting is proposed and
more » ... proposed and analyzed; this system can take advantage of a less power demanding semiconductor laser in intensity modulated continuous wave operation, benefiting from a better efficiency, reliability and radiation hardness. Our approach is validated via numerical simulations considering current technological readiness, demonstrating its potential to obtain a 1.5 ppm retrieval precision for 50 km averaging with 2.5 W average power in a space-borne scenario. A major limiting factor is the ambient shot noise, if ultra-narrow band filtering technology could be applied, 0.5 ppm retrieval precision would be attainable.
doi:10.1364/oe.24.021119 pmid:27607715 fatcat:pcywhj4rtzhjhlmdnpxvoa54ru