• For a list of known issues with this product, see the Known Issues document under the Documentation section of the page.

ATLAS/ICESat-2 L2A Normalized Relative Backscatter Profiles, Version 5
Data set id:
ATL04
DOI: 10.5067/ATLAS/ATL04.005
There is a more recent version of these data.
Version Summary
Changes for this version include:

  • Reading dem_h and dem_flag from ANC39 rather than input ANC06 and ANC28 files for processing efficiency.

  • Changed dead time correction algorithm used to correct the surface signal magnitude. This should improve the accuracy of the surface_sig parameter and the too small winter time values over Antarctica..

  • Added the podppd_flag parameter to ATL04. The podppd_flag provides identification of ATLAS data in nominal geolocation quality status or a degraded quality. podppd_flag=0 means geolocation is in reference ground track pointing with normal quality. podppd_flag=4 means geolocation is in around-the-world can or ocean scan with normal quality. Other values are degraded quality. This enables detection of ocean scans and other geolocation problems.

  • Fixed a some bugs including an added constant dtime_max as maximum dead time correction, set Fill Value to 127 for cloud_fold_flag, added checks on beam elevation off by 15 degrees, and added a check on negative dead time correction factor.

  • For consistency a list of constants was updated to match the SIPS overrides. See the user guide or ATBD for more details.

Overview

ATL04 contains along-track normalized relative backscatter profiles of the atmosphere. The product includes full 532 nm (14 km) uncalibrated attenuated backscatter profiles at 25 times per second for vertical bins of approximately 30 meters. Calibration coefficient values derived from data within the polar regions are also included. The data were acquired by the Advanced Topographic Laser Altimeter System (ATLAS) instrument on board the Ice, Cloud and land Elevation Satellite-2 (ICESat-2) observatory.
Parameter(s):
LIDAR BACKSCATTER
Platform(s):
ICESat-2
Sensor(s):
ATLAS
Data Format(s):
HDF5
Temporal Coverage:
13 October 2018 to 13 October 2022
Temporal Resolution:
  • 91 day
Spatial Resolution:
  • Not Specified
Spatial Reference System(s):
WGS 84
EPSG:4326
Spatial Coverage:
N:
90
S:
-90
E:
180
W:
-180
Blue outlined yellow areas on the map below indicate the spatial coverage for this data set.

Data Access & Tools

This data set has been retired. There is a more recent version of these data.

Help Articles

General Questions & FAQs

This article covers frequently asked questions about the NASA NSIDC DAAC's Earthdata cloud migration project and what it means to data users.
This short article describes the customization services available for ICESat-2 data using Earthdata Search.

How to Articles

Many NSIDC DAAC data sets can be accessed using the NSIDC DAAC's Data Access Tool. This tool provides the ability to search and filter data with spatial and temporal constraints using a map-based interface.Users have the option to
To convert HDF5 files into binary format you will need to use the h5dump utility, which is part of the HDF5 distribution available from the HDF Group. How you install HDF5 depends on your operating system.
This guide will provide an overview of the altimetry measurements and data sets across the missions, as well as a guide for accessing the data through NASA Earthdata Search and programmatically using an Application Programming Interface (API).
The NASA Earthdata Cloud is the NASA cloud-based archive of Earth observations. It is hosted by Amazon Web Services (AWS). Learn how to find and access NSIDC DAAC data directly in the cloud.
All data from the NASA National Snow and Ice Data Center Distributed Active Archive Center (NSIDC DAAC) can be accessed directly from our HTTPS file system, using wget or curl. Basic command line instructions are provided in the article below. 
NASA Earthdata Search is a map-based interface where a user can search for Earth science data, filter results based on spatial and temporal constraints, and order data with customizations including re-formatting, re-projecting, and spatial and parameter subsetting.
This webinar introduces the ICESat-2 mission and shows you how to explore, access and customize ICESat-2 data with the OpenAltimetry application, using NSIDC DAAC tools, and shows you how to subset, reformat and analyze the data using Python.