What question did this study set out to answer?

The research aims to improve the precision of aerosol extinction profile retrieval from Raman Lidar data in challenging conditions.

April 16, 2026

Improvement of Aerosol Extinction Profiles from Raman Lidar

Key Points

The research aims to improve the precision of aerosol extinction profile retrieval from Raman Lidar data in challenging conditions.
Applied different regularization techniques for data smoothing
Focused on N2 387 nm profile during daylight in the Arctic
Divided retrieval into intervals for individual smoothing
Examined the impact of interval selection and numerical parameters
Demonstrated that reliable extinction profiles can be retrieved even amid data quality degradation
Confirmed that methodology choices significantly influence the final profile outcomes

Abstract

In this work, we revise the precise retrieval of extinction from Raman Lidar data. This is traditionally challenging, as the derivative of a function with height-increasing noise is sought. Hence, we apply different regularization techniques for an example of the N2 387 nm profile in the Arctic under daylight conditions. Due to the decreasing lidar data quality, we split the retrieval into different intervals. This allows each interval to be smoothed individually. Although the final extinction profile depends on the chosen method, the interval selection and numerical parameters, we show that a trustful solution can be obtained even in altitudes in which a non-regularized solution will fail.

Improvement of Aerosol Extinction Profiles from Raman Lidar

Key Points

Abstract

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