WEBVTT FILE 1 00:00:00.030 --> 00:00:04.190 [Music] 2 00:00:04.210 --> 00:00:08.370 [Music] Markus: From satellite data, 3 00:00:08.390 --> 00:00:12.550 we have a very good handle of how our Earth looks like. We can see oceans, 4 00:00:12.570 --> 00:00:18.490 we can see the sea ice, we can see our forests, but it's much, much 5 00:00:18.510 --> 00:00:22.510 harder to measure how high things are on a global scale. Almost impossible. 6 00:00:22.530 --> 00:00:26.530 Neumann: ICESat-2 adds the third dimension, the elevation. Repeating measurements 7 00:00:26.550 --> 00:00:30.630 from ICESat-2 will allow us to measure changes in the ice sheets or in the 8 00:00:30.650 --> 00:00:34.800 ocean or in land. Markus: ICESat-2 is designed to measure 9 00:00:34.820 --> 00:00:38.980 the changes that are going on in the cryosphere, in the polar regions. 10 00:00:39.000 --> 00:00:43.000 Neumann: All the change is at the edges. Those are the steeply sloping parts of the glacier 11 00:00:43.020 --> 00:00:47.040 interact with the ocean, and that's where all the action is, that's where all the mass is being lost. 12 00:00:47.060 --> 00:00:51.140 Markus: In order to estimate the mass changes, we need to know the height 13 00:00:51.160 --> 00:00:55.160 of things. The mission, ICESat-2, 14 00:00:55.180 --> 00:00:59.190 carries a single instrument. It's called ATLAS, the Advanced Topographic 15 00:00:59.210 --> 00:01:03.240 Laser Altimeter System. Neumann: ATLAS sends out 16 00:01:03.260 --> 00:01:07.380 small pulses of laser light 10,000 times a second, and by 17 00:01:07.400 --> 00:01:11.410 measuring precisely how long it takes that light to go from the spacecraft 18 00:01:11.430 --> 00:01:15.480 down to the Earth and back up to the spacecraft allows us to figure out 19 00:01:15.500 --> 00:01:19.620 what the height of the surface is beneath ICESat-2. 20 00:01:19.640 --> 00:01:23.650 Markus: We need to measure the time of flight of a single photon, or a single laser pulse, 21 00:01:23.670 --> 00:01:27.720 with the precision of a billionth of a second. Neumann: NASA engineers had to come up with 22 00:01:27.740 --> 00:01:31.730 entirely new ways of measuring time very precisely. 23 00:01:31.750 --> 00:01:35.880 Markus: A billionth of a second translates to an elevation-change precision of 24 00:01:35.900 --> 00:01:40.070 just a few centimeters. Climate change is amplified in 25 00:01:40.090 --> 00:01:44.100 the polar regions. ICESat-2 is designed to measure those 26 00:01:44.120 --> 00:01:48.280 areas and will help us to understand what's going on with our planet. 27 00:01:48.300 --> 00:01:52.310 [Music] 28 00:01:52.330 --> 00:01:55.129 [Music]