Research

Research Highlights

Scientists and investigators using Atmospheric Radiation Measurement (ARM) User Facility data publish about 150 peer-reviewed journal articles per year. These documented research efforts represent tangible evidence of ARM’s contributions to improving our understanding of clouds and aerosols and their interactions with the Earth’s surface. ARM research highlights summarize these published research results.

Share your Research with ARM

Each of your DOE-funded journal articles should include a research highlight. This is an important opportunity to summarize your work and describe its scientific impact. ARM has a simple form for you to fill out to share your highlight with ARM management.

Submit a Highlight

Explore the Highlights Database

Check out research highlights submitted by members of the ARM community and view each highlight’s linked journal article. Search the database by title, author, or research area.

Search Highlights

Recent Highlights

Seasonality and albedo dependence of cloud radiative forcing in the upper Colorado River basin

3 July 2025

Feldman, Daniel

Research area: Radiation Processes

Supported by: ARM ASR

The hydrologic cycle is strongly influenced by the balance of sunlight and thermal radiation on the ground or snow surface. We quantify the combined impacts of clouds and snow cover on the surface radiative energy balance in a high-elevation region of the upper Colorado River basin. Since snow is bright and reflects sunlight, our results demonstrate that the surface energy balance will become increasingly sensitive to cloud cover as snow cover declines.

New parameterizations to connect aerosol phase state with their ice nucleation abilities

27 June 2025

Zhang, Yue

Research area: Aerosol Processes

Supported by: ARM ASR

We combined laboratory experiments, modeling, and field data to demonstrate that organic aerosols may significantly contribute to the formation of ice clouds in certain atmospheric regions.

AI-based classification of marine cloud cell patterns from ARM radar

1 May 2025

Comstock, Jennifer M. ; Tian, Jingjing

Research area: Cloud Distributions/Characterizations

Supported by: ARM

Marine stratocumulus clouds often organize into mesoscale cellular convection (MCC), forming large-scale open or closed cell patterns. However, Earth system models struggle to simulate these regimes due to limited observations and understanding of physical processes. In this study, researchers at Pacific Northwest National Laboratory applied an artificial intelligence/machine learning (AI/ML) approach to analyze long-term vertically pointing cloud radar data from the Atmospheric Radiation Measurement (ARM) user facility’s Eastern North Atlantic (ENA) site. The method enables continuous time series of MCC classification, performs well, and reveals clear cloud and meteorological differences between the two MCC types. It also holds great potential for application to other ARM locations.