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The Ice, Cloud and land Elevation Satellite-2, or ICESat-2, is a laser altimeter that will measure the heights of Earth’s surfaces. This animation shows deployment of ICESat-2's solar panels, door, and laser pulses.

Video Credit: NASA/GSFC

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ICESat-2 will measure the height of ice and its features, such as this glacial melt pond photographed July 16, 2014, over Alaska.

To deliver the instrument safely to the spacecraft for assembly and testing, the ATLAS team developed special procedures for packing, transporting and monitoring the sensitive hardware.

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Video Credit: NASA/GSFC

Launch countdown Snapchat story aired on August 22, 2018.

Engineers are building and testing the Advanced Topographic Laser Altimeter System (ATLAS) for the ICESat-2 mission at NASA's Goddard Space Flight Center in Greenbelt, Maryland.

ICESat-2 will use six laser beams to measure the height of ice, as illustrated in this not-to-scale artist's rendering. This illustration is an outcome of the ICESat-2/SCAD Collaborative Student Project.

Engineers check on the box structure section of the ATLAS instrument, with the optical bench — with telescope attached — in the foreground. ATLAS is the sole instrument on the ICESat-2 satellite, and will measure the height of Earth.

Laser Focus: The Receiver

Opto-Mechanical Engineer Tyler Evans explains how the photons that bounce back from Earth are received and filtered by the ATLAS telescope.

Video Credit: NASA/GSFC

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ICESat-2 will provide scientists with height measurements that create a global portrait of Earth’s third dimension, gathering data that can precisely track changes of terrain including glaciers, sea ice, forests and more.

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Video Credit: NASA/GSFC

ICESat-2 is an incredibly precise space laser that features the latest in NASA technology To measure ice heights, engineers have to take ICESat-2’s instrument ATLAS to the extreme – sometimes going big, sometimes going small, but always keeping it precise.

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Video Credit: NASA/GSFC

The ATLAS lidar on ICESat-2 uses 6 laser beams to measure the earth’s elevation and elevation change. This animation shows the beam tracks on Earth as the satellite passes overhead.

Video Credit: NASA/GSFC
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Join the trees around the GLOBE campaign to help take tree height measurements and compare them with what ICESat-2 is measuring from space.

In Photon Jump, a 3-minute short animation, a brave photon of light named Pho must travel from a NASA spacecraft down to Earth and back again to help complete a crucial science mission. The animation was created by the ICESat-2/SCAD Collaborative Student Project involving students and faculty from the Savannah College of Art and Design.

Video Credit: NASA/GSFC

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ATLAS captures returning photons in this 2.6-foot, 46-pound telescope.

This animation shows how ICESat-2 measures sea ice thickness.

An engineer attaches components to ICESat-2's beryllium telescope, before it is attached to the satellite's ATLAS instrument.

Opto-Mechanical Engineer Tyler Evans illustrates how the laser is transmitted from the ATLAS instrument on the ICESat-2 spacecraft.

Video Credit: NASA/GSFC

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To develop the computer programs that will crunch the raw data gathered by ICESat-2, the mission flew a series of campaigns with the MABEL instrument, which gathers similar information.

With extreme cold-weather gear, scientific instruments, and two tank-like snow machines called PistenBullys, ICESat-2 scientists traversed along section of the 88-degree south latitude line in an arc around the South Pole. 

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Video Credit: NASA/GSFC

Pho, a plucky bright green photon of light, must travel from a NASA spacecraft down to Earth and back again to help complete a crucial science mission in this educational short film.

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Engineers and technicians check the fit of ICESat-2’s telescope to its sling, before moving it into place on the instrument’s optical bench.

If ICESat-2 flew over a football field, it would take measurements within each yard line (green circles) – plus there's six of these green laser beams taking measurements at once!
The first ICESat instrument only fired 40 times a second, and would have taken a measurement in each end zone (red circles).

Learn more about ICESat-2!

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The ATLAS box structure, with weights attached to simulate different components, is attached to a vibration table at NASA's Goddard Space Flight Center in Greenbelt, Maryland, where it will be tested to see if it can withstand the jolts associated with a rocket launch.

An engineer checks ICESat-2's box structure, shortly after its arrival in a NASA clean room in May. Over the next two years, engineers and technicians will attach electronics, optics, lasers, a telescope and more to the box, testing its function at each step.