“Early on the morning of Saturday, November 18, NASA successfully launched for the National Oceanic and Atmospheric Administration (NOAA) the first in a series of four advanced polar-orbiting satellites, equipped with next-generation technology and designed to improve the accuracy of U.S. weather forecasts out to seven days. The Joint Polar Satellite System-1 (JPSS-1) lifted off on a United Launch Alliance Delta II rocket from Vandenberg Air Force Base on California’s central coast. JPSS-1 data will improve weather forecasting and help agencies involved with post-storm recovery by visualizing storm damage and the geographic extent of power outages.”
“Though the Webb telescope will focus on stars and galaxies approximately 13.5 billion light-years away, its sight goes through a similar process as you would if you underwent laser vision correction surgery to be able to focus on an object 10 feet across the room. In orbit at Earth’s second Lagrange point (L2), far from the help of a terrestrial doctor, Webb will use its near-infrared camera (NIRCam) instrument to help align its primary mirror segments about 40 days after launch, once they have unfolded from their unaligned stowed position and cooled to their operating temperatures.
Laser vision correction surgery reshapes the cornea of the eye to remove imperfections that cause vision problems like nearsightedness. The cornea is the surface of the eye; it helps focus rays of light on the retina at the back of the eye, and though it appears to be uniform and smooth, it can be misshapen and pockmarked with dents, dimples, and other imperfections that can affect a person’s sight. The relative positioning of Webb’s primary mirror segments after launch will be the equivalent of these corneal imperfections, and engineers on Earth will need to make corrections to the mirrors’ positions to bring them into alignment, ensuring they will produce sharp, focused images.”
“ICESat-2 (Ice, Cloud, and land Elevation Satellite 2), part of NASA’s Earth Observing System, is a planned satellite mission for measuring ice sheet elevation, sea ice freeboard as well as land topography and vegetation characteristics. ICESat-2 is a planned follow-on to the ICESat mission. It will be launched in 2018 from Vandenberg Air Force Base in California into a near-circular, near-polar orbit with an altitude of approximately 496 km. It is being designed to operate for 3 years, and will carry enough propellant for 7 years.
The ICESat-2 mission is designed to provide elevation data needed to determine ice sheet mass balance as well as vegetation canopy information. It will provide topography measurements of cities, lakes and reservoirs, oceans and land surfaces around the globe, in addition to the polar-specific coverage.
The ICESat-2 project is being managed by NASA Goddard Space Flight Center. The sole instrument is being designed and built by NASA Goddard Space Flight Center, and the bus is being provided by Orbital ATK. The satellite will launch on a Delta II rocket provided by United Launch Alliance. As of November 2017 this is the last planned launch of the Delta ll launch vehicle.
The sole instrument on ICESat-2 will be the Advanced Topographic Laser Altimeter System (ATLAS), a space-based LIDAR. ATLAS will time the flight of laser photons from the satellite to Earth and back; computer programs will use the travel time from multiple pulses to determine elevation. The ATLAS laser will emit visible laser pulses at 532 nm wavelength. The laser is being developed and built by Fibertek, Inc. As ICESat-2 orbits, the ATLAS will generate six beams arranged in three pairs, with the pairs 3.3 km apart, in order to better determine the surface’s slope and provide more ground coverage. ATLAS will take elevation measurements every 70 cm along the satellite’s ground path. The laser will fire at a rate of 10 kHz. Each pulse sends out about 20 trillion photons, almost all of which are dispersed or deflected as the pulse travels to Earth’s surface and bounces back to the satellite. About a dozen photons from each pulse return to the instrument and are collected in a beryllium telescope.”
Music: “Cristal Delight,” Fred Dubois, Killer Tracks
Ryan Fitzgibbons (USRA): Lead Producer
Kate Ramsayer (Telophase Corp.): Lead Writer
Ryan Fitzgibbons (USRA): Writer
Ryan Fitzgibbons (USRA): Lead Animator
Adriana Manrique Gutierrez (USRA): Animator
Thorsten Markus (NASA/GSFC): Lead Scientist
Thomas A. Neumann Ph.D. (NASA/GSFC): Lead Scientist
“ICESat-2 (Ice, Cloud, and land Elevation Satellite 2), part of NASA’s Earth Observing System, is a planned satellite mission for measuring ice sheet elevation, sea ice freeboard as well as land topography and vegetation characteristics. ICESat-2 is a planned follow-on to the ICESat mission. It will be launched in 2018 from Vandenberg Air Force Base in California into a near-circular, near-polar orbit with an altitude of approximately 496 km. It is being designed to operate for 3 years, and will carry enough propellant for 7 years.
The ICESat-2 mission is designed to provide elevation data needed to determine ice sheet mass balance as well as vegetation canopy information. It will provide topography measurements of cities, lakes and reservoirs, oceans and land surfaces around the globe, in addition to the polar-specific coverage.
The ICESat-2 project is being managed by NASA Goddard Space Flight Center. The sole instrument is being designed and built by NASA Goddard Space Flight Center, and the bus is being provided by Orbital ATK. The satellite will launch on a Delta II rocket provided by United Launch Alliance. As of November 2017 this is the last planned launch of the Delta ll launch vehicle.
The sole instrument on ICESat-2 will be the Advanced Topographic Laser Altimeter System (ATLAS), a space-based LIDAR. ATLAS will time the flight of laser photons from the satellite to Earth and back; computer programs will use the travel time from multiple pulses to determine elevation. The ATLAS laser will emit visible laser pulses at 532 nm wavelength. The laser is being developed and built by Fibertek, Inc. As ICESat-2 orbits, the ATLAS will generate six beams arranged in three pairs, with the pairs 3.3 km apart, in order to better determine the surface’s slope and provide more ground coverage. ATLAS will take elevation measurements every 70 cm along the satellite’s ground path. The laser will fire at a rate of 10 kHz. Each pulse sends out about 20 trillion photons, almost all of which are dispersed or deflected as the pulse travels to Earth’s surface and bounces back to the satellite. About a dozen photons from each pulse return to the instrument and are collected in a beryllium telescope.”
Music: “Cristal Delight,” Fred Dubois, Killer Tracks
Ryan Fitzgibbons (USRA): Lead Producer
Kate Ramsayer (Telophase Corp.): Lead Writer
Ryan Fitzgibbons (USRA): Writer
Ryan Fitzgibbons (USRA): Lead Animator
Adriana Manrique Gutierrez (USRA): Animator
Thorsten Markus (NASA/GSFC): Lead Scientist
Thomas A. Neumann Ph.D. (NASA/GSFC): Lead Scientist
“ICESat-2 (Ice, Cloud, and land Elevation Satellite 2), part of NASA’s Earth Observing System, is a planned satellite mission for measuring ice sheet elevation, sea ice freeboard as well as land topography and vegetation characteristics. ICESat-2 is a planned follow-on to the ICESat mission. It will be launched in 2018 from Vandenberg Air Force Base in California into a near-circular, near-polar orbit with an altitude of approximately 496 km. It is being designed to operate for 3 years, and will carry enough propellant for 7 years.
The ICESat-2 mission is designed to provide elevation data needed to determine ice sheet mass balance as well as vegetation canopy information. It will provide topography measurements of cities, lakes and reservoirs, oceans and land surfaces around the globe, in addition to the polar-specific coverage.
The ICESat-2 project is being managed by NASA Goddard Space Flight Center. The sole instrument is being designed and built by NASA Goddard Space Flight Center, and the bus is being provided by Orbital ATK. The satellite will launch on a Delta II rocket provided by United Launch Alliance. As of November 2017 this is the last planned launch of the Delta ll launch vehicle.
The sole instrument on ICESat-2 will be the Advanced Topographic Laser Altimeter System (ATLAS), a space-based LIDAR. ATLAS will time the flight of laser photons from the satellite to Earth and back; computer programs will use the travel time from multiple pulses to determine elevation. The ATLAS laser will emit visible laser pulses at 532 nm wavelength. The laser is being developed and built by Fibertek, Inc. As ICESat-2 orbits, the ATLAS will generate six beams arranged in three pairs, with the pairs 3.3 km apart, in order to better determine the surface’s slope and provide more ground coverage. ATLAS will take elevation measurements every 70 cm along the satellite’s ground path. The laser will fire at a rate of 10 kHz. Each pulse sends out about 20 trillion photons, almost all of which are dispersed or deflected as the pulse travels to Earth’s surface and bounces back to the satellite. About a dozen photons from each pulse return to the instrument and are collected in a beryllium telescope.”
Music: “Cristal Delight,” Fred Dubois, Killer Tracks
Ryan Fitzgibbons (USRA): Lead Producer
Kate Ramsayer (Telophase Corp.): Lead Writer
Ryan Fitzgibbons (USRA): Writer
Ryan Fitzgibbons (USRA): Lead Animator
Adriana Manrique Gutierrez (USRA): Animator
Thorsten Markus (NASA/GSFC): Lead Scientist
Thomas A. Neumann Ph.D. (NASA/GSFC): Lead Scientist
“ICESat-2 (Ice, Cloud, and land Elevation Satellite 2), part of NASA’s Earth Observing System, is a planned satellite mission for measuring ice sheet elevation, sea ice freeboard as well as land topography and vegetation characteristics. ICESat-2 is a planned follow-on to the ICESat mission. It will be launched in 2018 from Vandenberg Air Force Base in California into a near-circular, near-polar orbit with an altitude of approximately 496 km. It is being designed to operate for 3 years, and will carry enough propellant for 7 years.
The ICESat-2 mission is designed to provide elevation data needed to determine ice sheet mass balance as well as vegetation canopy information. It will provide topography measurements of cities, lakes and reservoirs, oceans and land surfaces around the globe, in addition to the polar-specific coverage.
The ICESat-2 project is being managed by NASA Goddard Space Flight Center. The sole instrument is being designed and built by NASA Goddard Space Flight Center, and the bus is being provided by Orbital ATK. The satellite will launch on a Delta II rocket provided by United Launch Alliance. As of November 2017 this is the last planned launch of the Delta ll launch vehicle.
The sole instrument on ICESat-2 will be the Advanced Topographic Laser Altimeter System (ATLAS), a space-based LIDAR. ATLAS will time the flight of laser photons from the satellite to Earth and back; computer programs will use the travel time from multiple pulses to determine elevation. The ATLAS laser will emit visible laser pulses at 532 nm wavelength. The laser is being developed and built by Fibertek, Inc. As ICESat-2 orbits, the ATLAS will generate six beams arranged in three pairs, with the pairs 3.3 km apart, in order to better determine the surface’s slope and provide more ground coverage. ATLAS will take elevation measurements every 70 cm along the satellite’s ground path. The laser will fire at a rate of 10 kHz. Each pulse sends out about 20 trillion photons, almost all of which are dispersed or deflected as the pulse travels to Earth’s surface and bounces back to the satellite. About a dozen photons from each pulse return to the instrument and are collected in a beryllium telescope.”
Music: “Cristal Delight,” Fred Dubois, Killer Tracks
Ryan Fitzgibbons (USRA): Lead Producer
Kate Ramsayer (Telophase Corp.): Lead Writer
Ryan Fitzgibbons (USRA): Writer
Ryan Fitzgibbons (USRA): Lead Animator
Adriana Manrique Gutierrez (USRA): Animator
Thorsten Markus (NASA/GSFC): Lead Scientist
Thomas A. Neumann Ph.D. (NASA/GSFC): Lead Scientist
Subscribe to blog posts using RSS
