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1. Stratospheric Ozone Content Variations Over the City of Obninsk from Data of Lidar and Satellite Measurements

   Abstract

   An analysis of variations in the height-integrated stratospheric ozone content in layers of 13–18, 18–23, and 23–30 km according to the data...

   V. A. Korshunov in Izvestiya, Atmospheric and Oceanic Physics

   Article 25 October 2023
   

2. Tropospheric Ozone Differential Absorption Lidar (DIAL) Development at New York City

   Ozone (O \({ }_3\) ) pollution episodes often...

   Dingdong Li, Yonghua Wu, ... Fred Moshary in Proceedings of the 30th International Laser Radar Conference

   Conference paper 2023
   

3. Lidars in the Network for Detection of Atmospheric Composition Change (NDACC) and the Tropospheric Ozone Lidar Network (TOLNet)

   Lidar is an important technique for long-term remote sensing measurements of atmospheric ozone, temperature, and aerosol profiles. In this...

   Wolfgang Steinbrecht, Thierry Leblanc in Handbook of Air Quality and Climate Change

   Reference work entry 2023
   

4. Improved Remote Operation Capabilities for the NASA GSFC Tropospheric Ozone Lidar for Routine Ozone Profiling for Satellite Evaluation

   To observe tropospheric ozone more effectively, the National Aeronautics and Space Administration (NASA) Goddard Space Flight Center Tropospheric...

   T. H. Nguyen, J. T. Sullivan, L. W. Twigg in Proceedings of the 30th International Laser Radar Conference

   Conference paper 2023
   

5. Comparison of Satellite and Ground-Based Measurements of Tropospheric Ozone Columns in the Vicinity of St. Petersburg

   Abstract

   Much attention from scientists around the world is currently focused on monitoring the tropospheric ozone content, because ozone in the...

   Ya. A. Virolainen, G. M. Nerobelov, A. V. Polyakov in Izvestiya, Atmospheric and Oceanic Physics

   Article 31 August 2023
   

6. DIAL Ozone Measurement Capability Added to NASA’s HSRL-2 Instrument Demonstrates Tropospheric Ozone Variability Over Houston Area

   NASA Langley Research Center (LaRC) fielded its second-generation multiwavelength high spectral resolution lidar (HSRL-2), which also includes...

   Marta Fenn, Johnathan Hair, ... Richard Ferrare in Proceedings of the 30th International Laser Radar Conference

   Conference paper 2023
   

7. Stratospheric Aerosol: 45 Years of Lidar Measurements at Garmisch-Partenkirchen

   The long-term lidar measurement series of stratospheric aerosol started in 1976 has been continued in third generation with a new lidar system since...

   Thomas Trickl, Hannes Vogelmann, ... Matthias Perfahl in Proceedings of the 30th International Laser Radar Conference

   Conference paper 2023
   

8. Analysis of Long-Term Measurements of Tropospheric Ozone at the St. Petersburg State University Observational Site in Peterhof

   Abstract

   Tropospheric ozone (TO) is one of the major greenhouse gases and a toxic air pollutant. It plays a key role in various chemical and...

   Ya. A. Virolainen, D. V. Ionov, A. V. Polyakov in Izvestiya, Atmospheric and Oceanic Physics

   Article 01 June 2023
   

9. Lidars in the Network for Detection of Atmospheric Composition Change (NDACC) and the Tropospheric Ozone Lidar Network (TOLNet)

   Lidar is an important technique for long-term remote sensing measurements of atmospheric ozone, temperature, and aerosol profiles. In this...

   Wolfgang Steinbrecht, Thierry Leblanc in Handbook of Air Quality and Climate Change

   Living reference work entry 2022
   

10. Russian Studies of Atmospheric Ozone and Its Precursors in 2019–2022

    Abstract

    We present the most significant results of Russian scientists in the field of atmospheric ozone research for 2019–2022 and examine...

    V. V. Andreev, O. E. Bazhenov, ... T. V. Khodzher in Izvestiya, Atmospheric and Oceanic Physics

    Article 01 December 2023
    

11. Analysis of a Mid-Atlantic Ozone Episode Using TOLNet and Pandora

    A large effort has been made to establish ozone lidars across the mid-Atlantic region of the United States. By 2023, there will be 4 Tropospheric...

    Maurice Roots, Sergio Diaz, ... Belay Demoz in Proceedings of the 30th International Laser Radar Conference

    Conference paper 2023
    

12. Aerosol Studies with Spectrometric Fluorescence and Raman Lidar

    RAMSES (Raman lidar for atmospheric moisture sensing) is the operational spectrometric fluorescence and water Raman lidar of the German...

    Jens Reichardt, Felix Lauermann, Oliver Behrendt in Proceedings of the 30th International Laser Radar Conference

    Conference paper 2023
    

13. Diurnal Variability of MLH and Ozone in NYC Urban and Coastal Area from an Integrated Observation During LISTOS 2018

    Mixing layer height (MLH) and land-sea breeze in the coastal area play an important role in ozone (O3) dispersion and transport. This study presents...

    Yonghua Wu, Amin Nehrir, ... Fred Moshary in Proceedings of the 30th International Laser Radar Conference

    Conference paper 2023
    

14. Two Decades Analysis of Cirrus Cloud Radiative Effects by LiDAR Observations in the Frame of NASA MPLNET LiDAR Network

    Assessing the cirrus cloud radiative effect is crucial to establish their feedback on the Earth-atmosphere system. For this reason, cirrus clouds are...

    Simone Lolli, Erica Dolinar, ... Ellsworth J. Welton in Proceedings of the 30th International Laser Radar Conference

    Conference paper 2023
    

15. Long-Term Monitoring of the Stratosphere by Lidars in the Network for the Detection of Atmospheric Composition Change

    Lidars are excellent tools for routine profile measurements of ozone, temperature, and aerosol in the stratosphere. Different from most other...

    Wolfgang Steinbrecht, Thierry Leblanc, ... Thomas J. McGee in Proceedings of the 30th International Laser Radar Conference

    Conference paper 2023
    

16. Proceedings of the 30th International Laser Radar Conference

    This volume presents papers from the biennial International Laser Radar Conference (ILRC), the world’s leading event in the field of atmospheric...

    John T. Sullivan, Thierry Leblanc, ... Krishna Rupavatharam in Springer Atmospheric Sciences

    Conference proceedings 2023
    

17. Trajectory Analysis of CO2 Concentration Increase Events in the Nocturnal Atmospheric Boundary Layer Observed by the Differential Absorption Lidar

    CO2 is the primary greenhouse gas emitted through human activities. For the detailed analysis of forest carbon dynamics and CO2 fluxes in urban...

    Makoto Abo, Chikao Nagasawa, Yasukuni Shibata in Proceedings of the 30th International Laser Radar Conference

    Conference paper 2023
    

18. Atomic Barium Vapor Filter for Ultraviolet High-Spectral-Resolution Temperature LiDAR

    A novel active vapor filtering approach functioning at the third harmonic of the commonly used Nd:YAG laser is introduced. The filter utilizes an...

    Madison Hetlage, Christopher Limbach in Proceedings of the 30th International Laser Radar Conference

    Conference paper 2023
    

19. Study of variation of aerosol optical properties over a high altitude station in Indian Western Himalayan region, palampur using raman lidar system

    A Raman lidar system was operated along with the Microtops sunphotometer measurements to carry out the study of the variation of the optical...

    Shishir Kumar Singh, S. R. Radhakrishnan, ... Chhemendra Sharma in Journal of Atmospheric Chemistry

    Article 21 March 2022
    

20. The CALIPSO Lidar: Aerosol Observations for Air Quality and Climate

    Global observations are necessary to characterize a variety of aerosol environmental impacts. Satellite sensors are a critical part of this effort,...

    David M. Winker in Handbook of Air Quality and Climate Change

    Reference work entry 2023