Atmospheric Radiation Measurement Climate Research Facility US Department of Energy

ceil > CeilometerInstrument Type(s) > Baseline • External • Guest

The ceilometer (CEIL) is a remote-sensing instrument that measures cloud height, vertical visibility, and potential backscatter signals by aerosols. It detects up to three cloud layers simultaneously. Operating through a maximum vertical range of 7700 m, the CEIL transmits near-infrared pulses of light and the receiver detects the light scattered back by clouds and precipitation.

Purpose

Understand vertical profiles of aerosol and cloud.

Locations

  • Fixed
  • AMF1
  • AMF2
  • AMF3

Data Details

Developed By Ewan OConnor | Reijo Roinonen
Contact Ewan O'Connor
Resource(s) Data Directory
ReadMe
Data format netcdf
Site TMP
Content time range 11 October 1996 - 26 September 2022
Attribute accuracy No formal attribute accuracy tests were conducted
Positional accuracy No formal positional accuracy tests were conducted
Data Consistency and Completeness Threshold on signal to noise.
Access Restriction No access constraints are associated with this data.
Use Restriction Please notify PI when using data.
File naming convention standard ARM file naming convention

2022

Islam M, N Meskhidze, A Satheesh, and M Petters. 2022. "Turbulent Flux Measurements of the Near‐surface and Residual‐layer Small Particle Events." Journal of Geophysical Research: Atmospheres, 127(17), e2021JD036289, 10.1029/2021JD036289.

Zhang D, J Comstock, and V Morris. 2022. "Comparison of planetary boundary layer height from ceilometer with ARM radiosonde data." Atmospheric Measurement Techniques, 15(16), 10.5194/amt-15-4735-2022.

Borque P, A Varble, and J Hardin. 2022. "Peak Rain Rate Sensitivity to Observed Cloud Condensation Nuclei and Turbulence in Continental Warm Shallow Clouds During CACTI." Journal of Geophysical Research: Atmospheres, , e2022JD036864, 10.1029/2022JD036864. ACCEPTED.

Zheng Q and M Miller. 2022. "Summertime Marine Boundary Layer Cloud, Thermodynamic, and Drizzle Morphology over the Eastern North Atlantic: A Four-Year Study." Journal of Climate, 35(14), 10.1175/JCLI-D-21-0568.1.

Kalmus P, C Ao, K Wang, M Manzi, and J Teixeira. 2022. "A high-resolution planetary boundary layer height seasonal climatology from GNSS radio occultations." Remote Sensing of Environment, 276, 113037, 10.1016/j.rse.2022.113037.


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