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AIRS and Aqua of Goddard Space Flight Center (GSFC)
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AIRS Volumetric Temperature
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| Title |
AIRS Volumetric Temperature Data (Fly Out) |
| Abstract |
This visualization shows Aqua/Airs simulated volumetric temperature data for September 13, 1999. The data was created using the Finite Volume Community Climate Model (FVCCM). Temperature and cloud data sets were match rendered for cross dissolves in post production. This visualization was created as a part of the Aqua prelaunch package. |
| Completed |
2002-03-14 |
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AIRS Volumetric Temperature
…
| Title |
AIRS Volumetric Temperature Data (Fly Out) |
| Abstract |
This visualization shows Aqua/Airs simulated volumetric temperature data for September 13, 1999. The data was created using the Finite Volume Community Climate Model (FVCCM). Temperature and cloud data sets were match rendered for cross dissolves in post production. This visualization was created as a part of the Aqua prelaunch package. |
| Completed |
2002-03-14 |
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AIRS Volumetric Temperature
…
| Title |
AIRS Volumetric Temperature Data (Fly Out) |
| Abstract |
This visualization shows Aqua/Airs simulated volumetric temperature data for September 13, 1999. The data was created using the Finite Volume Community Climate Model (FVCCM). Temperature and cloud data sets were match rendered for cross dissolves in post production. This visualization was created as a part of the Aqua prelaunch package. |
| Completed |
2002-03-14 |
|
AIRS Volumetric Temperature
…
| Title |
AIRS Volumetric Temperature Data (Fly Out) |
| Abstract |
This visualization shows Aqua/Airs simulated volumetric temperature data for September 13, 1999. The data was created using the Finite Volume Community Climate Model (FVCCM). Temperature and cloud data sets were match rendered for cross dissolves in post production. This visualization was created as a part of the Aqua prelaunch package. |
| Completed |
2002-03-14 |
|
AIRS Volumetric Temperature
…
| Title |
AIRS Volumetric Temperature Data (Fly Out) |
| Abstract |
This visualization shows Aqua/Airs simulated volumetric temperature data for September 13, 1999. The data was created using the Finite Volume Community Climate Model (FVCCM). Temperature and cloud data sets were match rendered for cross dissolves in post production. This visualization was created as a part of the Aqua prelaunch package. |
| Completed |
2002-03-14 |
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Super-Typhoon Pongsona Visua
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| Title |
Super-Typhoon Pongsona Visualized from AIRS Instrument Suite Data |
| Abstract |
Packing gusts of nearly 300 kilometers per hour (184 miles per hour) and sustained winds of 240 kilometers per hour (150 miles per hour), Super-Typhoon Pongsona struck the U.S. Island of Guam on December 8, 2002. This 3D model of the hurricane shows the outline of the clouds, based on cloud top heights derived from AIRS observations. The color overlay represents the brightness temperatures observed in one of the HSB channels. Blue areas indicate intense convection and rain, while green and yellow reflect the internal temperature of the clouds. Microwaves, unlike infrared radiation, penetrate clouds and look into them or even through them. Red, most of which has been removed from the picture for clarity, represents areas where HSB penetrates all the way to the surface. |
| Completed |
2003-01-27 |
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Super-Typhoon Pongsona Visua
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| Title |
Super-Typhoon Pongsona Visualized from AIRS Instrument Suite Data |
| Abstract |
Packing gusts of nearly 300 kilometers per hour (184 miles per hour) and sustained winds of 240 kilometers per hour (150 miles per hour), Super-Typhoon Pongsona struck the U.S. Island of Guam on December 8, 2002. This 3D model of the hurricane shows the outline of the clouds, based on cloud top heights derived from AIRS observations. The color overlay represents the brightness temperatures observed in one of the HSB channels. Blue areas indicate intense convection and rain, while green and yellow reflect the internal temperature of the clouds. Microwaves, unlike infrared radiation, penetrate clouds and look into them or even through them. Red, most of which has been removed from the picture for clarity, represents areas where HSB penetrates all the way to the surface. |
| Completed |
2003-01-27 |
|
Super-Typhoon Pongsona Visua
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| Title |
Super-Typhoon Pongsona Visualized from AIRS Instrument Suite Data |
| Abstract |
Packing gusts of nearly 300 kilometers per hour (184 miles per hour) and sustained winds of 240 kilometers per hour (150 miles per hour), Super-Typhoon Pongsona struck the U.S. Island of Guam on December 8, 2002. This 3D model of the hurricane shows the outline of the clouds, based on cloud top heights derived from AIRS observations. The color overlay represents the brightness temperatures observed in one of the HSB channels. Blue areas indicate intense convection and rain, while green and yellow reflect the internal temperature of the clouds. Microwaves, unlike infrared radiation, penetrate clouds and look into them or even through them. Red, most of which has been removed from the picture for clarity, represents areas where HSB penetrates all the way to the surface. |
| Completed |
2003-01-27 |
|
Super-Typhoon Pongsona Visua
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| Title |
Super-Typhoon Pongsona Visualized from AIRS Instrument Suite Data |
| Abstract |
Packing gusts of nearly 300 kilometers per hour (184 miles per hour) and sustained winds of 240 kilometers per hour (150 miles per hour), Super-Typhoon Pongsona struck the U.S. Island of Guam on December 8, 2002. This 3D model of the hurricane shows the outline of the clouds, based on cloud top heights derived from AIRS observations. The color overlay represents the brightness temperatures observed in one of the HSB channels. Blue areas indicate intense convection and rain, while green and yellow reflect the internal temperature of the clouds. Microwaves, unlike infrared radiation, penetrate clouds and look into them or even through them. Red, most of which has been removed from the picture for clarity, represents areas where HSB penetrates all the way to the surface. |
| Completed |
2003-01-27 |
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Super-Typhoon Pongsona Visua
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| Title |
Super-Typhoon Pongsona Visualized from AIRS Instrument Suite Data |
| Abstract |
Packing gusts of nearly 300 kilometers per hour (184 miles per hour) and sustained winds of 240 kilometers per hour (150 miles per hour), Super-Typhoon Pongsona struck the U.S. Island of Guam on December 8, 2002. This 3D model of the hurricane shows the outline of the clouds, based on cloud top heights derived from AIRS observations. The color overlay represents the brightness temperatures observed in one of the HSB channels. Blue areas indicate intense convection and rain, while green and yellow reflect the internal temperature of the clouds. Microwaves, unlike infrared radiation, penetrate clouds and look into them or even through them. Red, most of which has been removed from the picture for clarity, represents areas where HSB penetrates all the way to the surface. |
| Completed |
2003-01-27 |
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AIRS Volumetric Cloud Data w
…
| Title |
AIRS Volumetric Cloud Data with Gradient Background (Fly Out) |
| Abstract |
This visualization shows Aqua/AIRS simulated volumetric cloud data for September 13, 1999. The data was created using the Finite Volume Community Climate Model (FVCCM). Temperature and cloud data sets were match rendered for cross dissolves in post production. This visualization was created as a part of the Aqua prelaunch package. |
| Completed |
2002-03-14 |
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AIRS Volumetric Cloud Data w
…
| Title |
AIRS Volumetric Cloud Data with Gradient Background (Fly Out) |
| Abstract |
This visualization shows Aqua/AIRS simulated volumetric cloud data for September 13, 1999. The data was created using the Finite Volume Community Climate Model (FVCCM). Temperature and cloud data sets were match rendered for cross dissolves in post production. This visualization was created as a part of the Aqua prelaunch package. |
| Completed |
2002-03-14 |
|
AIRS Volumetric Cloud Data w
…
| Title |
AIRS Volumetric Cloud Data with Gradient Background (Fly Out) |
| Abstract |
This visualization shows Aqua/AIRS simulated volumetric cloud data for September 13, 1999. The data was created using the Finite Volume Community Climate Model (FVCCM). Temperature and cloud data sets were match rendered for cross dissolves in post production. This visualization was created as a part of the Aqua prelaunch package. |
| Completed |
2002-03-14 |
|
AIRS Volumetric Cloud Data w
…
| Title |
AIRS Volumetric Cloud Data with Gradient Background (Fly Out) |
| Abstract |
This visualization shows Aqua/AIRS simulated volumetric cloud data for September 13, 1999. The data was created using the Finite Volume Community Climate Model (FVCCM). Temperature and cloud data sets were match rendered for cross dissolves in post production. This visualization was created as a part of the Aqua prelaunch package. |
| Completed |
2002-03-14 |
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AIRS Volumetric Cloud Data w
…
| Title |
AIRS Volumetric Cloud Data with Gradient Background (Fly Out) |
| Abstract |
This visualization shows Aqua/AIRS simulated volumetric cloud data for September 13, 1999. The data was created using the Finite Volume Community Climate Model (FVCCM). Temperature and cloud data sets were match rendered for cross dissolves in post production. This visualization was created as a part of the Aqua prelaunch package. |
| Completed |
2002-03-14 |
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AIRS Volumetric Cloud Data (
…
| Title |
AIRS Volumetric Cloud Data (Fly In) |
| Abstract |
This visualization shows Aqua/AIRS simulated volumetric cloud data for September 13, 1999. The data was created using the Finite Volume Community Climate Model (FVCCM). Temperature and cloud data sets were match rendered for cross dissolves in post production. This visualization was created as a part of the Aqua prelaunch package. |
| Completed |
2002-03-14 |
|
AIRS Volumetric Cloud Data (
…
| Title |
AIRS Volumetric Cloud Data (Fly In) |
| Abstract |
This visualization shows Aqua/AIRS simulated volumetric cloud data for September 13, 1999. The data was created using the Finite Volume Community Climate Model (FVCCM). Temperature and cloud data sets were match rendered for cross dissolves in post production. This visualization was created as a part of the Aqua prelaunch package. |
| Completed |
2002-03-14 |
|
AIRS Volumetric Cloud Data (
…
| Title |
AIRS Volumetric Cloud Data (Fly In) |
| Abstract |
This visualization shows Aqua/AIRS simulated volumetric cloud data for September 13, 1999. The data was created using the Finite Volume Community Climate Model (FVCCM). Temperature and cloud data sets were match rendered for cross dissolves in post production. This visualization was created as a part of the Aqua prelaunch package. |
| Completed |
2002-03-14 |
|
AIRS Volumetric Cloud Data (
…
| Title |
AIRS Volumetric Cloud Data (Fly In) |
| Abstract |
This visualization shows Aqua/AIRS simulated volumetric cloud data for September 13, 1999. The data was created using the Finite Volume Community Climate Model (FVCCM). Temperature and cloud data sets were match rendered for cross dissolves in post production. This visualization was created as a part of the Aqua prelaunch package. |
| Completed |
2002-03-14 |
|
AIRS Volumetric Cloud Data (
…
| Title |
AIRS Volumetric Cloud Data (Fly In) |
| Abstract |
This visualization shows Aqua/AIRS simulated volumetric cloud data for September 13, 1999. The data was created using the Finite Volume Community Climate Model (FVCCM). Temperature and cloud data sets were match rendered for cross dissolves in post production. This visualization was created as a part of the Aqua prelaunch package. |
| Completed |
2002-03-14 |
|
AIRS Volumetric Temperature
…
| Title |
AIRS Volumetric Temperature Data with Gradient Background (Fly In) |
| Abstract |
This visualization shows Aqua/Airs simulated volumetric temperature data for September 13, 1999. The data was created using the Finite Volume Community Climate Model (FVCCM). Temperature and cloud data sets were match rendered for cross dissolves in post production. This visualization was created as a part of the Aqua prelaunch package. |
| Completed |
2002-03-14 |
|
AIRS Volumetric Temperature
…
| Title |
AIRS Volumetric Temperature Data with Gradient Background (Fly In) |
| Abstract |
This visualization shows Aqua/Airs simulated volumetric temperature data for September 13, 1999. The data was created using the Finite Volume Community Climate Model (FVCCM). Temperature and cloud data sets were match rendered for cross dissolves in post production. This visualization was created as a part of the Aqua prelaunch package. |
| Completed |
2002-03-14 |
|
AIRS Volumetric Temperature
…
| Title |
AIRS Volumetric Temperature Data with Gradient Background (Fly In) |
| Abstract |
This visualization shows Aqua/Airs simulated volumetric temperature data for September 13, 1999. The data was created using the Finite Volume Community Climate Model (FVCCM). Temperature and cloud data sets were match rendered for cross dissolves in post production. This visualization was created as a part of the Aqua prelaunch package. |
| Completed |
2002-03-14 |
|
AIRS Volumetric Temperature
…
| Title |
AIRS Volumetric Temperature Data with Gradient Background (Fly In) |
| Abstract |
This visualization shows Aqua/Airs simulated volumetric temperature data for September 13, 1999. The data was created using the Finite Volume Community Climate Model (FVCCM). Temperature and cloud data sets were match rendered for cross dissolves in post production. This visualization was created as a part of the Aqua prelaunch package. |
| Completed |
2002-03-14 |
|
AIRS Volumetric Temperature
…
| Title |
AIRS Volumetric Temperature Data with Gradient Background (Fly In) |
| Abstract |
This visualization shows Aqua/Airs simulated volumetric temperature data for September 13, 1999. The data was created using the Finite Volume Community Climate Model (FVCCM). Temperature and cloud data sets were match rendered for cross dissolves in post production. This visualization was created as a part of the Aqua prelaunch package. |
| Completed |
2002-03-14 |
|
AIRS Volumetric Temperature
…
| Title |
AIRS Volumetric Temperature Data with Gradient Background (Fly In) |
| Abstract |
This visualization shows Aqua/Airs simulated volumetric temperature data for September 13, 1999. The data was created using the Finite Volume Community Climate Model (FVCCM). Temperature and cloud data sets were match rendered for cross dissolves in post production. This visualization was created as a part of the Aqua prelaunch package. |
| Completed |
2002-03-14 |
|
Aqua/AIRS Water Vapor near s
…
| Title |
Aqua/AIRS Water Vapor near southern California #2 |
| Abstract |
This visualization shows 3D volumetric water vapor data from the Aqua/Atmospheric Infrared Sounder (AIRS) instrument. As the camera moved down and around the data set, the low data values are faded out revealing only the highest concentrations of water vapor data. This version (#2) ends with a slightly lower threshold than the original version - showing more of the highest water vapor concentrations. The color and opacity at each 3D voxel are driven by the water vapor data. The data set was obtained by Aqua on January 1, 2003. Only data from the sea level to about 10km are shown. This visualization was created to support a JPL press release about how assimilated AIRS data is improving global atmospheric simulation model forecasts by about 6 hours (from about 5 days to about 5 days and 6 hours). |
| Completed |
2005-02-09 |
|
Aqua/AIRS Water Vapor near s
…
| Title |
Aqua/AIRS Water Vapor near southern California #2 |
| Abstract |
This visualization shows 3D volumetric water vapor data from the Aqua/Atmospheric Infrared Sounder (AIRS) instrument. As the camera moved down and around the data set, the low data values are faded out revealing only the highest concentrations of water vapor data. This version (#2) ends with a slightly lower threshold than the original version - showing more of the highest water vapor concentrations. The color and opacity at each 3D voxel are driven by the water vapor data. The data set was obtained by Aqua on January 1, 2003. Only data from the sea level to about 10km are shown. This visualization was created to support a JPL press release about how assimilated AIRS data is improving global atmospheric simulation model forecasts by about 6 hours (from about 5 days to about 5 days and 6 hours). |
| Completed |
2005-02-09 |
|
Aqua/AIRS Water Vapor near s
…
| Title |
Aqua/AIRS Water Vapor near southern California #2 |
| Abstract |
This visualization shows 3D volumetric water vapor data from the Aqua/Atmospheric Infrared Sounder (AIRS) instrument. As the camera moved down and around the data set, the low data values are faded out revealing only the highest concentrations of water vapor data. This version (#2) ends with a slightly lower threshold than the original version - showing more of the highest water vapor concentrations. The color and opacity at each 3D voxel are driven by the water vapor data. The data set was obtained by Aqua on January 1, 2003. Only data from the sea level to about 10km are shown. This visualization was created to support a JPL press release about how assimilated AIRS data is improving global atmospheric simulation model forecasts by about 6 hours (from about 5 days to about 5 days and 6 hours). |
| Completed |
2005-02-09 |
|
Aqua/AIRS Water Vapor near s
…
| Title |
Aqua/AIRS Water Vapor near southern California #2 |
| Abstract |
This visualization shows 3D volumetric water vapor data from the Aqua/Atmospheric Infrared Sounder (AIRS) instrument. As the camera moved down and around the data set, the low data values are faded out revealing only the highest concentrations of water vapor data. This version (#2) ends with a slightly lower threshold than the original version - showing more of the highest water vapor concentrations. The color and opacity at each 3D voxel are driven by the water vapor data. The data set was obtained by Aqua on January 1, 2003. Only data from the sea level to about 10km are shown. This visualization was created to support a JPL press release about how assimilated AIRS data is improving global atmospheric simulation model forecasts by about 6 hours (from about 5 days to about 5 days and 6 hours). |
| Completed |
2005-02-09 |
|
Aqua/AIRS Water Vapor near s
…
| Title |
Aqua/AIRS Water Vapor near southern California #2 |
| Abstract |
This visualization shows 3D volumetric water vapor data from the Aqua/Atmospheric Infrared Sounder (AIRS) instrument. As the camera moved down and around the data set, the low data values are faded out revealing only the highest concentrations of water vapor data. This version (#2) ends with a slightly lower threshold than the original version - showing more of the highest water vapor concentrations. The color and opacity at each 3D voxel are driven by the water vapor data. The data set was obtained by Aqua on January 1, 2003. Only data from the sea level to about 10km are shown. This visualization was created to support a JPL press release about how assimilated AIRS data is improving global atmospheric simulation model forecasts by about 6 hours (from about 5 days to about 5 days and 6 hours). |
| Completed |
2005-02-09 |
|
AIRS Volumetric Cloud Data w
…
| Title |
AIRS Volumetric Cloud Data with Gradient Background (Fly In) |
| Abstract |
This visualization shows Aqua/AIRS simulated volumetric cloud data for September 13, 1999. The data was created using the Finite Volume Community Climate Model (FVCCM). Temperature and cloud data sets were match rendered for cross dissolves in post production. This visualization was created as a part of the Aqua prelaunch package. |
| Completed |
2002-03-14 |
|
AIRS Volumetric Cloud Data w
…
| Title |
AIRS Volumetric Cloud Data with Gradient Background (Fly In) |
| Abstract |
This visualization shows Aqua/AIRS simulated volumetric cloud data for September 13, 1999. The data was created using the Finite Volume Community Climate Model (FVCCM). Temperature and cloud data sets were match rendered for cross dissolves in post production. This visualization was created as a part of the Aqua prelaunch package. |
| Completed |
2002-03-14 |
|
AIRS Volumetric Cloud Data w
…
| Title |
AIRS Volumetric Cloud Data with Gradient Background (Fly In) |
| Abstract |
This visualization shows Aqua/AIRS simulated volumetric cloud data for September 13, 1999. The data was created using the Finite Volume Community Climate Model (FVCCM). Temperature and cloud data sets were match rendered for cross dissolves in post production. This visualization was created as a part of the Aqua prelaunch package. |
| Completed |
2002-03-14 |
|
AIRS Volumetric Cloud Data w
…
| Title |
AIRS Volumetric Cloud Data with Gradient Background (Fly In) |
| Abstract |
This visualization shows Aqua/AIRS simulated volumetric cloud data for September 13, 1999. The data was created using the Finite Volume Community Climate Model (FVCCM). Temperature and cloud data sets were match rendered for cross dissolves in post production. This visualization was created as a part of the Aqua prelaunch package. |
| Completed |
2002-03-14 |
|
AIRS Volumetric Cloud Data w
…
| Title |
AIRS Volumetric Cloud Data with Gradient Background (Fly In) |
| Abstract |
This visualization shows Aqua/AIRS simulated volumetric cloud data for September 13, 1999. The data was created using the Finite Volume Community Climate Model (FVCCM). Temperature and cloud data sets were match rendered for cross dissolves in post production. This visualization was created as a part of the Aqua prelaunch package. |
| Completed |
2002-03-14 |
|
AIRS Volumetric Cloud Data w
…
| Title |
AIRS Volumetric Cloud Data with Gradient Background (Fly In) |
| Abstract |
This visualization shows Aqua/AIRS simulated volumetric cloud data for September 13, 1999. The data was created using the Finite Volume Community Climate Model (FVCCM). Temperature and cloud data sets were match rendered for cross dissolves in post production. This visualization was created as a part of the Aqua prelaunch package. |
| Completed |
2002-03-14 |
|
Fires in Greece as seen by A
…
| Title |
Fires in Greece as seen by Aqua/AIRS |
| Abstract |
A series of fires across Greece in August of 2007 burned 469,000 acres and claimed the lives of 65 people. The fires, in which an estimated 4,000 people lost their homes, mostly occurred in the southern part of of the country. In this visualization, the carbon monoxide signature from the fires in Greece is revealed in data retrieved by the Atmospheric Infrared Sounder (AIRS) on NASA's Aqua spacecraft. Forest fires create large amounts of carbon monoxide. AIRS provides daily global maps of carbon monoxide from space, allowing scientists to follow the global transport of this gas day-to-day. This visualization shows the amount of Carbon monoxide that has risen 2 to 8 kilometers (6,500 ft to 26,200 ft altitude) from August 24-28, 2007. More carbon monoxide generally means more pollution, either natural from wildfires or from industrial and domestic sources. Beginning August 24, a significant plume emanates from the extensive fires burning in Greece. This plume moves southeast across the Mediterranean Sea and over North Africa from August 24 to 28. It crosses to Africa and arcs westward over the Sahara Desert and continues to curl around over the Eastern Mediterranean toward Sardinia and Corsica. |
| Completed |
2007-08-30 |
|
The A-Train Observes Tropica
…
| Title |
The A-Train Observes Tropical Storm Debby |
| Abstract |
The A-Train is a group of spacecraft flying in close formation allowing data taken by each instrument to be correlated to the other instruments providing data synergy. The A-Train includes Aqua, Cloudsat, CALIPSO, Parasol, and Aura. The animation begins showing the Earth with moving clouds and with a day/night terminator. Time slows down, and A-train spacecraft orbits are added during a daytime pass. The orbits progress around the globe for 12 hours. During a night time pass the camera zooms into Tropical Storm Debby as the A-train flys over on August 24, 2006. Data sets from some of the A-train's spacecraft/instruments are shown including Aqua/MODIS, Cloudsat, CALIPSO, and Aqua/AIRS. This visualization was created to support an A-Train session at the 2007 International Geoscience and Remote Sensing Symposium (IGARSS). |
| Completed |
2007-06-27 |
|
The A-Train Observes Tropica
…
| Title |
The A-Train Observes Tropical Storm Debby |
| Abstract |
The A-Train is a group of spacecraft flying in close formation allowing data taken by each instrument to be correlated to the other instruments providing data synergy. The A-Train includes Aqua, Cloudsat, CALIPSO, Parasol, and Aura. The animation begins showing the Earth with moving clouds and with a day/night terminator. Time slows down, and A-train spacecraft orbits are added during a daytime pass. The orbits progress around the globe for 12 hours. During a night time pass the camera zooms into Tropical Storm Debby as the A-train flys over on August 24, 2006. Data sets from some of the A-train's spacecraft/instruments are shown including Aqua/MODIS, Cloudsat, CALIPSO, and Aqua/AIRS. This visualization was created to support an A-Train session at the 2007 International Geoscience and Remote Sensing Symposium (IGARSS). |
| Completed |
2007-06-27 |
|
The A-Train Observes Tropica
…
| Title |
The A-Train Observes Tropical Storm Debby |
| Abstract |
The A-Train is a group of spacecraft flying in close formation allowing data taken by each instrument to be correlated to the other instruments providing data synergy. The A-Train includes Aqua, Cloudsat, CALIPSO, Parasol, and Aura. The animation begins showing the Earth with moving clouds and with a day/night terminator. Time slows down, and A-train spacecraft orbits are added during a daytime pass. The orbits progress around the globe for 12 hours. During a night time pass the camera zooms into Tropical Storm Debby as the A-train flys over on August 24, 2006. Data sets from some of the A-train's spacecraft/instruments are shown including Aqua/MODIS, Cloudsat, CALIPSO, and Aqua/AIRS. This visualization was created to support an A-Train session at the 2007 International Geoscience and Remote Sensing Symposium (IGARSS). |
| Completed |
2007-06-27 |
|
The A-Train Observes Tropica
…
| Title |
The A-Train Observes Tropical Storm Debby |
| Abstract |
The A-Train is a group of spacecraft flying in close formation allowing data taken by each instrument to be correlated to the other instruments providing data synergy. The A-Train includes Aqua, Cloudsat, CALIPSO, Parasol, and Aura. The animation begins showing the Earth with moving clouds and with a day/night terminator. Time slows down, and A-train spacecraft orbits are added during a daytime pass. The orbits progress around the globe for 12 hours. During a night time pass the camera zooms into Tropical Storm Debby as the A-train flys over on August 24, 2006. Data sets from some of the A-train's spacecraft/instruments are shown including Aqua/MODIS, Cloudsat, CALIPSO, and Aqua/AIRS. This visualization was created to support an A-Train session at the 2007 International Geoscience and Remote Sensing Symposium (IGARSS). |
| Completed |
2007-06-27 |
|
AIRS Volumetric Temperature
…
| Title |
AIRS Volumetric Temperature Data (Fly In) |
| Abstract |
This visualization shows Aqua/AIRS simulated volumetric temperature data for September 13, 1999. The data was created using the Finite Volume Community Climate Model (FVCCM). Temperature and cloud data sets were match rendered for cross dissolves in post production. This visualization was created as a part of the Aqua prelaunch package. |
| Completed |
2002-03-14 |
|
AIRS Volumetric Temperature
…
| Title |
AIRS Volumetric Temperature Data (Fly In) |
| Abstract |
This visualization shows Aqua/AIRS simulated volumetric temperature data for September 13, 1999. The data was created using the Finite Volume Community Climate Model (FVCCM). Temperature and cloud data sets were match rendered for cross dissolves in post production. This visualization was created as a part of the Aqua prelaunch package. |
| Completed |
2002-03-14 |
|
AIRS Volumetric Temperature
…
| Title |
AIRS Volumetric Temperature Data (Fly In) |
| Abstract |
This visualization shows Aqua/AIRS simulated volumetric temperature data for September 13, 1999. The data was created using the Finite Volume Community Climate Model (FVCCM). Temperature and cloud data sets were match rendered for cross dissolves in post production. This visualization was created as a part of the Aqua prelaunch package. |
| Completed |
2002-03-14 |
|
AIRS Volumetric Temperature
…
| Title |
AIRS Volumetric Temperature Data (Fly In) |
| Abstract |
This visualization shows Aqua/AIRS simulated volumetric temperature data for September 13, 1999. The data was created using the Finite Volume Community Climate Model (FVCCM). Temperature and cloud data sets were match rendered for cross dissolves in post production. This visualization was created as a part of the Aqua prelaunch package. |
| Completed |
2002-03-14 |
|
AIRS Volumetric Temperature
…
| Title |
AIRS Volumetric Temperature Data (Fly In) |
| Abstract |
This visualization shows Aqua/AIRS simulated volumetric temperature data for September 13, 1999. The data was created using the Finite Volume Community Climate Model (FVCCM). Temperature and cloud data sets were match rendered for cross dissolves in post production. This visualization was created as a part of the Aqua prelaunch package. |
| Completed |
2002-03-14 |
|
AIRS Volumetric Temperature
…
| Title |
AIRS Volumetric Temperature Data (Fly In) |
| Abstract |
This visualization shows Aqua/AIRS simulated volumetric temperature data for September 13, 1999. The data was created using the Finite Volume Community Climate Model (FVCCM). Temperature and cloud data sets were match rendered for cross dissolves in post production. This visualization was created as a part of the Aqua prelaunch package. |
| Completed |
2002-03-14 |
|
Visualization of Fires in Gr
…
PIA09923
Sol (our sun)
Atmospheric Infrared Sounder
| Title |
Visualization of Fires in Greece as seen by the Atmospheric Infrared Sounder |
| Original Caption Released with Image |
[ http://photojournal.jpl.nasa.gov/archive/PIA09923.m1v ] Click on the image for visualization Four-Day Time Series A series of fires across Greece in August of 2007 burned 469,000 acres and claimed the lives of 65 people. The fires, in which an estimated 4,000 people lost their homes, mostly occurred in the southern part of the country. In the visualization (see above), the carbon monoxide signature from the fires in Greece is revealed in data retrieved by the Atmospheric Infrared Sounder, AIRS. Forest fires create large amounts of carbon monoxide. AIRS provides daily global maps of carbon monoxide from space, allowing scientists to follow the global transport of this gas day-to-day. The visualization covers data retrieved over the period from August 24-28, 2007, and shows the amount of CO that has risen into the broad layer within the free troposphere. More carbon monoxide generally means more pollution, either natural from wildfires or from industrial and domestic sources. Beginning August 24, a significant plume emanates from the extensive fires burning in Greece. This plume moves southeast across the Mediterranean Sea and over North Africa from August 24 to 28. It crosses to Africa and arcs westward over the Sahara Desert and continues to curl around over the Eastern Mediterranean toward Sardinia and Corsica. The Atmospheric Infrared Sounder Experiment (AIRS) [ http://airs/ ], with its visible, infrared, and microwave detectors, provides a three-dimensional look at Earth's weather. Working in tandem, the three instruments can make simultaneous observations all the way down to the Earth's surface, even in the presence of heavy clouds. With more than 2,000 channels sensing different regions of the atmosphere, the system creates a global, 3-D map of atmospheric temperature and humidity and provides information on clouds, greenhouse gases, and many other atmospheric phenomena. The AIRS Infrared Sounder Experiment flies onboard NASA's Aqua spacecraft and is managed by NASA's Jet Propulsion Laboratory, Pasadena, Calif., under contract to NASA. JPL is a division of the California Institute of Technology in Pasadena. |
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Hurricane Katrina as Observe
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PIA04178
Sol (our sun)
Atmospheric Infrared Sounder
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Hurricane Katrina as Observed by NASA's Spaceborne Atmospheric Infrared Sounder (AIRS) |
| Original Caption Released with Image |
Figure 1: click on image for larger AIRS microwave image At 1:30 a.m. local time this morning, the remnants of (now Tropical Depression) Katrina were centered on the Mississippi-Tennessee border. This microwave image from the Atmospheric Infrared Sounder instrument on NASA's Aqua spacecrat shows that the area of most intense precipitation was concentrated to the north of the center of activity. The infrared image shows how the storms look through an AIRS Infrared window channel. Window channels measure the temperature of the cloud tops or the surface of the Earth in cloud-free regions. The lowest temperatures are associated with high, cold cloud tops that make up the top of the hurricane. The infrared signal does not penetrate through clouds, so the purple color indicates the cool cloud tops of the storm. In cloud-free areas, the infrared signal is retrieved at the Earth's surface, revealing warmer temperatures. Cooler areas are pushing to purple and warmer areas are pushing to red. The microwave image (figure 1) reveals where the heaviest precipitation in the hurricane is taking place. The blue areas within the storm show the location of this heavy precipitation. Blue areas outside of the storm where there are moderate or no clouds are where the cold (in the microwave sense) sea surface shines through. The Atmospheric Infrared Sounder Experiment, with its visible, infrared, and microwave detectors, provides a three-dimensional look at Earth's weather. Working in tandem, the three instruments can make simultaneous observations all the way down to the Earth's surface, even in the presence of heavy clouds. With more than 2,000 channels sensing different regions of the atmosphere, the system creates a global, 3-D map of atmospheric temperature and humidity and provides information on clouds, greenhouse gases, and many other atmospheric phenomena. The AIRS Infrared Sounder Experiment flies onboard NASA's Aqua spacecraft and is managed by NASA's Jet Propulsion Laboratory, Pasadena, Calif., under contract to NASA. JPL is a division of the California Institute of Technology in Pasadena. |
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