WEBVTT FILE 1 00:00:00.000 --> 00:00:03.470 [arcade game sounds, lasers shooting] 2 00:00:03.470 --> 00:00:05.973 I grew up playing video games about shooting 3 00:00:05.973 --> 00:00:09.676 lasers at asteroids, and now it’s my job to shoot 4 00:00:09.676 --> 00:00:13.814 lasers at asteroids. It never stops amazing me. 5 00:00:13.814 --> 00:00:20.687 [music] 6 00:00:20.687 --> 00:00:21.889 My name is Tim Haltigin from the Canadian 7 00:00:21.889 --> 00:00:25.125 Space Agency, and I’m the Canadian Mission Manager on 8 00:00:25.125 --> 00:00:28.462 OSIRIS-REx. I’m responsible for the overall operations of the 9 00:00:28.462 --> 00:00:31.732 OLA instrument and also for coordinating the contributions 10 00:00:31.732 --> 00:00:35.469 of the Canadian Science Team. So OSIRIS-REx is an international 11 00:00:35.469 --> 00:00:38.972 collaboration led by NASA that is a mission to go to an 12 00:00:38.972 --> 00:00:42.342 asteroid named Bennu, capture a sample of it, and bring it back 13 00:00:42.342 --> 00:00:44.645 to Earth so we can understand a little bit more what it’s made 14 00:00:44.645 --> 00:00:47.881 of. Understanding the shape of asteroid Bennu is going to be 15 00:00:47.881 --> 00:00:51.952 absolutely fundamental to understanding the geology and 16 00:00:51.952 --> 00:00:54.988 putting it in context. The other reason you really need to 17 00:00:54.988 --> 00:00:57.791 understand the topography extremely well is that when 18 00:00:57.791 --> 00:01:00.427 we’re going in to take a sample, it’s a very very fine 19 00:01:00.427 --> 00:01:03.163 measurement. And so if you’re coming in, you’ve got the 20 00:01:03.163 --> 00:01:05.465 sampling head at the end of this arm that has to come in 21 00:01:05.465 --> 00:01:09.503 perfectly square to the surface. If you don’t understand shape at 22 00:01:09.503 --> 00:01:12.706 sort of a 30-centimeter scale, you’re not going to be able to 23 00:01:12.706 --> 00:01:17.411 collect a sample. So OLA, or the OSIRIS-REx Laser Altimeter, is 24 00:01:17.411 --> 00:01:20.013 an instrument on the spacecraft that has two lasers inside of 25 00:01:20.013 --> 00:01:23.183 it, and it acts sort of like a 3D scanner. OLA’s going to 26 00:01:23.183 --> 00:01:26.620 create a three-dimensional map of the entire asteroid Bennu at 27 00:01:26.620 --> 00:01:30.490 a resolution of about one point every seven centimeters. This 28 00:01:30.490 --> 00:01:33.794 operates very similar to a radar, however instead of using 29 00:01:33.794 --> 00:01:37.397 a radio wave, it uses light. And so by measuring very accurately 30 00:01:37.397 --> 00:01:40.934 how long it takes for that laser pulse to go out, and bounce off 31 00:01:40.934 --> 00:01:43.804 a surface, and come back, you can measure a very accurate 32 00:01:43.804 --> 00:01:46.340 distance away from the spacecraft. The reason we have 33 00:01:46.340 --> 00:01:49.242 two different lasers is that we have to measure the asteroid 34 00:01:49.242 --> 00:01:52.079 from different distances away from it. So the high-powered 35 00:01:52.079 --> 00:01:55.749 laser, we can use from about seven kilometers in to about one 36 00:01:55.749 --> 00:01:58.385 kilometer away from the asteroid. The low-energy laser 37 00:01:58.385 --> 00:02:01.288 we can then use from one kilometer and inwards. And so as 38 00:02:01.288 --> 00:02:04.491 we get in closer and closer to the asteroid, we can make a lot 39 00:02:04.491 --> 00:02:06.994 higher-resolution maps and understand the shape of certain 40 00:02:06.994 --> 00:02:09.863 regions even better. The Canadian Space Agency 41 00:02:09.863 --> 00:02:13.300 contributed OLA to this mission for a number of reasons. First 42 00:02:13.300 --> 00:02:16.703 is that it allows Canadian scientists to have access to 43 00:02:16.703 --> 00:02:19.239 astromaterials for the very first time. So these are the 44 00:02:19.239 --> 00:02:21.975 first samples that are coming back on a sample return mission 45 00:02:21.975 --> 00:02:25.412 that Canada is going to own a portion of. The second reason is 46 00:02:25.412 --> 00:02:28.115 that it really highlights the expertise of Canadian scientists 47 00:02:28.115 --> 00:02:31.151 and engineers, and so the ability to contribute something 48 00:02:31.151 --> 00:02:34.254 like this to a mission as exciting as OSIRIS-REx really 49 00:02:34.254 --> 00:02:37.391 means a lot to the Agency and to Canada. If you ask anyone that’s 50 00:02:37.391 --> 00:02:40.761 ever built a flight instrument for space, they’ll tell you all 51 00:02:40.761 --> 00:02:44.331 kinds of fun stories about the challenges they’ve had doing it. 52 00:02:44.331 --> 00:02:46.600 When you’re building an instrument, you have an original 53 00:02:46.600 --> 00:02:50.303 design, you build a prototype, and you test it. What you want 54 00:02:50.303 --> 00:02:53.006 to do is something called “test as you fly.” Flying an 55 00:02:53.006 --> 00:02:56.476 instrument in space, space is a horrible place. So with flight 56 00:02:56.476 --> 00:02:59.479 instruments, what you need to do is put them on a table and shake 57 00:02:59.479 --> 00:03:01.648 them really hard to make sure they’re going to be able to 58 00:03:01.648 --> 00:03:04.685 survive the launch. You need to bombard them with radiation to 59 00:03:04.685 --> 00:03:07.320 make sure your electronics are still going to work. You need to 60 00:03:07.320 --> 00:03:10.257 put them in a chamber and completely evacuate it to make 61 00:03:10.257 --> 00:03:13.660 sure that everything still works when you’re in a vacuum. In the 62 00:03:13.660 --> 00:03:16.763 end ultimately what you have is an extremely robust system that 63 00:03:16.763 --> 00:03:18.799 you’re confident that when you strap it to the side of the 64 00:03:18.799 --> 00:03:22.502 spacecraft, launch it, and fire it in space, it’s going to work 65 00:03:22.502 --> 00:03:27.340 beautifully. I am incredibly excited to actually see what 66 00:03:27.340 --> 00:03:30.110 this asteroid looks like. When we get there and we see the 67 00:03:30.110 --> 00:03:32.979 first images and generate that first shape model, I think it’s 68 00:03:32.979 --> 00:03:34.481 going to surprise everyone. 69 00:03:34.481 --> 00:03:40.587 [music] 70 00:03:40.587 --> 00:00:00.000 [music ends]