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Climate models, weather data, oceanography, hydrology, atmospheric science, environmental monitoring
26,900 datasets
BARREL 1Q Tri-axial Fluxgate Magnetometer (MAGN) Magnetic Field Data provides three-axis DC magnetometer measurements with nominal conversions applied, neither gain corrected nor despun. The BARREL mission was a NASA Living with a Star Mission of Opportunity, launching over 50 stratospheric balloons from Antarctica and Sweden between 2013 and 2016 to study electron precipitation from Earth's radiation belts. Data was collected at stratospheric altitudes near the Antarctic and Arctic circles.
BARREL collected over 50 stratospheric balloon launches from Antarctica and Sweden between 2013 and 2016. The Level 2 ephemeris data provides geographic and magnetic coordinates at 4-second intervals, derived from onboard GPS and the IRBEM library. This NASA mission was designed to study electron precipitation from Earth's radiation belts in coordination with the Van Allen Probes.
BARREL 1R Ephemeris Level 2 data provides geographic and magnetic coordinates for stratospheric balloons. The dataset includes balloon epoch time, latitude, longitude, and altitude recorded every 4 seconds from GPS and derived via the IRBEM library. Collected by NASA's BARREL mission during campaigns from 2013 to 2016, it supports studies of electron precipitation from Earth's radiation belts.
Over 50 stratospheric balloons were launched across four campaigns from 2013 to 2016, collecting three-axis DC magnetometer data. The BARREL Mission, a NASA Living with a Star Mission of Opportunity, measured ULF-timescale magnetic field variations to study electron precipitation from Earth's Radiation Belts. Data were collected from launch sites in Antarctica (Halley Bay, SANAE IV) and Sweden (Esrange Space Center) at altitudes around 30 km.
BARREL was a NASA Living with a Star mission using over 50 stratospheric balloons to study electron precipitation from Earth's radiation belts. This Level 2 dataset provides housekeeping voltage, temperature, current, and payload status values recorded every 40 seconds by the balloon payloads. The data was collected during campaigns from Antarctica in 2013-2014 and Sweden in 2015-2016.
Over 50 stratospheric balloons were launched across four campaigns from 2013 to 2016. The BARREL Mission, a NASA Living with a Star investigation, collected housekeeping voltage, temperature, current, and payload status values every 40 seconds to study electron precipitation from Earth's Radiation Belts. Observations were made from Antarctic and Arctic launch sites at stratospheric altitudes around 30 km.
Three-axis DC magnetometer data from the BARREL mission's stratospheric balloon campaigns. Over 50 balloons were launched from Antarctica and Sweden between 2013 and 2016 to study electron precipitation from Earth's radiation belts. The data are collected by NASA and are not gain-corrected or despun.
BARREL 2A Ephemeris Level 2 data provides geographic and magnetic coordinates for stratospheric balloons at 4-second intervals. Geographic coordinates are obtained from onboard GPS, while magnetic coordinates are derived using the IRBEM library. The dataset was produced by NASA for the BARREL mission, which launched over 50 balloons from Antarctica and Sweden between 2013 and 2016 to study electron precipitation from Earth's radiation belts.
Over 50 stratospheric balloons were launched across four campaigns from 2013 to 2016. The BARREL mission, a NASA Living with a Star investigation, collected housekeeping voltage, temperature, current, and payload status values every 40 seconds to study electron losses from Earth's Radiation Belts. Data was gathered from balloon campaigns in Antarctica and Sweden, coordinated with the Van Allen Probes mission.
Four balloon campaigns conducted between 2013 and 2016 from Antarctica and Sweden collected this data. The dataset contains geographic and magnetic coordinate ephemeris for over 50 stratospheric balloons, with measurements returned every 4 seconds. Geographic coordinates were obtained from onboard GPS, while magnetic coordinates were derived using the IRBEM library as part of NASA's BARREL mission to study electron precipitation from Earth's radiation belts.
BARREL 2C housekeeping data provides voltage, temperature, current, and payload status values recorded every 40 seconds. The BARREL Mission was a NASA Living with a Star project involving over 50 stratospheric balloon launches from Antarctica and Sweden between 2013 and 2016. It was designed to study electron precipitation from Earth's Radiation Belts in coordination with the Van Allen Probes mission.
Over 50 stratospheric balloons were launched across four campaigns from 2013 to 2016. The BARREL Mission, a NASA Living with a Star investigation, collected housekeeping voltage, temperature, current, and payload status values every 40 seconds to study electron precipitation from Earth's Radiation Belts. Observations were made from Antarctic and Swedish launch sites at stratospheric altitudes around 30 km.
The BARREL mission conducted balloon campaigns in the Austral summers of 2013 and 2014 from Antarctic bases, and later campaigns in 2015 and 2016 from Kiruna, Sweden. It provides three-axis DC magnetometer data at 0.25-second intervals, collected from stratospheric balloons to study electron precipitation from Earth's Radiation Belts. The data was produced by NASA as part of the Living with a Star program.
BARREL 2D Ephemeris Level 2 data provides geographic and magnetic coordinates for stratospheric balloons at 4-second intervals. The dataset was produced by NASA's BARREL mission, which launched over 50 balloons from Antarctica and Sweden between 2013 and 2016 to study electron precipitation from Earth's radiation belts. Geographic coordinates are sourced from onboard GPS, while magnetic coordinates are derived using the IRBEM library.
Over 50 stratospheric balloons were launched across four campaigns from 2013 to 2016. The BARREL mission, a NASA Living with a Star project, measured electron precipitation from Earth's radiation belts using X-ray spectrometers and magnetometers. Geographic coordinates were obtained from onboard GPS, and magnetic coordinates were derived using the IRBEM library.
BARREL was a NASA balloon mission designed to study electron losses from Earth's Radiation Belts. Over 50 stratospheric balloons were launched from Antarctica and Sweden between 2013 and 2016, carrying magnetometers to measure magnetic field variations. The data likely contains three-axis DC magnetometer readings at a 0.25-second cadence, neither gain corrected nor despun.
Interpretation of seismic refraction data from the southwestern Papuan Peninsula and northwest Coral Sea provides insights into crustal composition and thickness. The dataset includes sediment thickness, P-wave velocities, and Moho depth measurements across key geological features like the Moresby Trough and Eastern Plateau. It was published by the Australian Ocean Data Network, with a record last updated in April 2026.
Approximately 6,000 km of 2D seismic data was acquired over the remote Capel and Faust basins offshore eastern Australia. Geoscience Australia collected and interpreted this data in 2006-2007 to evaluate the resource potential of these frontier basins. The record details the interpretation and complements the release of digital workstation files.
Antarctic and Arctic stratospheric balloon campaigns from 2013 to 2016 collected this data. The BARREL mission, a NASA Living with a Star project, launched over 50 balloons to study electron precipitation from Earth's radiation belts. Geographic coordinates were obtained from onboard GPS, and magnetic coordinates were derived using the IRBEM library.
A geological study analyzes the Ivanhoe Block, a concealed basement ridge complex affecting groundwater flow in the New South Wales Riverine Plain. The Australian Ocean Data Network published this research, which was last updated in April 2026. It details the block's role as a regional groundwater divide and its impact on salinity distribution.