Vogelmann et al. (2026) Profiling of aerosol, water vapor and temperature in the boundary layer during TEAMx pre campaign 2022 and Swabian MOSES 2023 with a Raman-lidar at a high temporal resolution

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Identification

• Journal: Springer Link (Chiba Institute of Technology)
• Year: 2026
• Date: 2026-04-09
• Authors: Hannes Vogelmann, Johannes Speidel, Matthias Perfahl
• DOI: 10.1051/epjconf/202636203002/pdf

Research Groups

Not specified in the provided text.

Short Summary

This study evaluates the performance and operational limits of a newly developed Raman lidar (Purple Pulse Lidar Systems) and assesses its ability to resolve turbulent processes and vertical energy fluxes.

Objective

• To analyze the performance and operational limits of the Purple Pulse Raman lidar under varying weather conditions.
• To evaluate the instrument's suitability for resolving turbulent processes and vertical energy fluxes when integrated with a vertical wind profiler.

Study Configuration

• Spatial Scale: Localized measurements at two sites: Innsbruck, Austria and Villingen-Schwenningen, Germany.
• Temporal Scale: Two summer measurement campaigns (2022 and 2023).

Methodology and Data

• Models used: Not specified.
• Data sources: Purple Pulse Raman lidar and a vertical wind profiler.

Main Results

• Analysis of the instrument's performance and limits across different weather conditions.
• Discussion on the system's capability to resolve vertical energy fluxes and turbulent processes in combination with wind profiling data.

Contributions

• Provides an initial performance assessment of a new Raman lidar system.
• Demonstrates the potential for using this specific lidar configuration to study atmospheric turbulence and energy exchange.

Funding

Not specified in the provided text.

Citation

@article{Vogelmann2026Profiling,
  author = {Vogelmann, Hannes and Speidel, Johannes and Perfahl, Matthias},
  title = {Profiling of aerosol, water vapor and temperature in the boundary layer during TEAMx pre campaign 2022 and Swabian MOSES 2023 with a Raman-lidar at a high temporal resolution},
  journal = {Springer Link (Chiba Institute of Technology)},
  year = {2026},
  doi = {10.1051/epjconf/202636203002/pdf},
  url = {https://doi.org/10.1051/epjconf/202636203002/pdf}
}