WEBVTT FILE 1 00:00:01.001 --> 00:00:12.079 [music] 2 00:00:12.079 --> 00:00:15.115 NASA’s OSIRIS-REx spacecraft is equipped with a suite of 3 00:00:15.115 --> 00:00:18.285 instruments designed to study its target: a near-earth 4 00:00:18.285 --> 00:00:23.357 asteroid called Bennu. One such instrument is called REXIS – The 5 00:00:23.357 --> 00:00:27.060 Regolith X-Ray Imaging Spectrometer. That complex name 6 00:00:27.060 --> 00:00:31.398 matches its complex task. "REXIS is something completely 7 00:00:31.398 --> 00:00:34.935 different than the rest of the instruments aboard OSIRIS-REx. 8 00:00:34.935 --> 00:00:38.939 And that’s because REXIS will detect elements – the individual 9 00:00:38.939 --> 00:00:42.743 atomic elements that make up this asteroid. Everything else 10 00:00:42.743 --> 00:00:47.314 is mapping the geology or the interior or even the mineral 11 00:00:47.314 --> 00:00:51.852 structure, and we are at the most fundamental level looking 12 00:00:51.852 --> 00:00:55.589 at what this asteroid is made out of." REXIS works off of how 13 00:00:55.589 --> 00:00:58.725 the Sun’s X-ray light interacts with the surface material 14 00:00:58.725 --> 00:01:02.729 covering Bennu. Atoms on the asteroid absorb these X-rays, 15 00:01:02.729 --> 00:01:06.066 causing their electron levels to temporarily change and emit 16 00:01:06.066 --> 00:01:09.436 their own X-rays. These re-emitted X-rays have a 17 00:01:09.436 --> 00:01:12.239 specific energy that tells us about the atom that they came 18 00:01:12.239 --> 00:01:16.376 from. This process is called fluorescence, but you can think 19 00:01:16.376 --> 00:01:20.514 of it like a glow. REXIS is a telescope that images that X-ray 20 00:01:20.514 --> 00:01:23.583 glow which allows scientists to create a map of the different 21 00:01:23.583 --> 00:01:26.653 elements present on Bennu’s surface. And REXIS has the 22 00:01:26.653 --> 00:01:30.424 ability to do all this based on its design and its position on 23 00:01:30.424 --> 00:01:34.594 the spacecraft. "REXIS is about the size of a shoebox. It’s 24 00:01:34.594 --> 00:01:37.731 located on the main instrument deck of the OSIRIS-REx 25 00:01:37.731 --> 00:01:40.634 spacecraft – basically this is the side that’s always facing 26 00:01:40.634 --> 00:01:44.104 the asteroid." "The pieces of the REXIS instrument are composed 27 00:01:44.104 --> 00:01:48.909 of two primary parts. We have the main REXIS telescope, which 28 00:01:48.909 --> 00:01:53.380 views the asteroid Bennu – it’s consisting of four CCDs that 29 00:01:53.380 --> 00:01:57.250 look through a coded aperture mask. The coded aperture mask is 30 00:01:57.250 --> 00:02:01.121 just a stainless steel plate with a number of holes that are 31 00:02:01.121 --> 00:02:04.458 known to us. The second part of the X-ray instrument is called 32 00:02:04.458 --> 00:02:09.196 the Solar X-ray Monitor, or the SXM. The SXM is viewing the Sun 33 00:02:09.196 --> 00:02:12.165 at all times so that we can monitor the X-ray spectrum, the 34 00:02:12.165 --> 00:02:15.869 solar x-ray spectrum incident on the surface of the asteroid." 35 00:02:15.869 --> 00:02:20.040 "The Solar X-ray Monitor let’s us calibrate out the day-to-day, 36 00:02:20.040 --> 00:02:23.410 even the hour-to-hour, variations in the X-ray flux 37 00:02:23.410 --> 00:02:27.647 that comes from the Sun." So like your digital camera or 38 00:02:27.647 --> 00:02:31.218 camera phone, the main spectrometer uses a light sensor, known as a 39 00:02:31.218 --> 00:02:35.455 CCD or charge-coupled device. In this case there are four of 40 00:02:35.455 --> 00:02:39.693 them, and they’re only sensitive to X-ray light. Before the X-ray 41 00:02:39.693 --> 00:02:43.530 photons from Bennu are detected by the CCDs, however, they pass 42 00:02:43.530 --> 00:02:46.133 through a mask with a random pattern of open and closed 43 00:02:46.133 --> 00:02:50.370 holes. By analyzing how the shadow of the mask pattern is 44 00:02:50.370 --> 00:02:53.907 shifted on the CCDs, scientists can determine the location of 45 00:02:53.907 --> 00:02:57.477 the X-rays coming from the asteroid’s surface. This is how 46 00:02:57.477 --> 00:03:01.281 REXIS images Bennu. And one surprising aspect of the REXIS 47 00:03:01.281 --> 00:03:05.318 instrument is the team that built it: students from MIT and 48 00:03:05.318 --> 00:03:08.188 Harvard. "The students are fantastic to work with, they’re 49 00:03:08.188 --> 00:03:11.258 so eager to learn. It’s been great sort of watching them as 50 00:03:11.258 --> 00:03:14.294 they grow in this experience. And I think they’ve come with 51 00:03:14.294 --> 00:03:17.364 some interesting ideas and some ways of looking at it that we 52 00:03:17.364 --> 00:03:20.400 may not have had had we been with someone who’s been doing 53 00:03:20.400 --> 00:03:23.370 this for, you know, years and years and years." "Other missions 54 00:03:23.370 --> 00:03:26.973 have had x-ray spectrometers onboard, but not nearly the 55 00:03:26.973 --> 00:03:30.077 level of sensitivity and sophistication of REXIS. And 56 00:03:30.077 --> 00:03:34.181 this really is a new generation, a next-generation in X-ray 57 00:03:34.181 --> 00:03:37.918 imaging for planetary science, and it’s all being done by 58 00:03:37.918 --> 00:03:39.553 students. 59 00:03:42.022 --> 00:03:49.196 [beeping]