WEBVTT FILE 1 00:00:00.020 --> 00:00:04.040 [Music] 2 00:00:04.060 --> 00:00:08.090 [Music] 3 00:00:08.110 --> 00:00:12.110 [Music] 4 00:00:12.130 --> 00:00:16.160 Narrator: Dark matter makes up about 27 percent 5 00:00:16.180 --> 00:00:20.170 of the cosmos, but so far no one knows what it is. 6 00:00:20.190 --> 00:00:24.170 Dark matter neither emits nor absorbs light and it 7 00:00:24.190 --> 00:00:28.180 interacts with the rest of the universe primarily through gravity. 8 00:00:28.200 --> 00:00:32.240 In fact, it's thought dark matter traced the initial framework of the 9 00:00:32.260 --> 00:00:36.260 cosmos, attracting normal matter that formed stars and galaxies. 10 00:00:36.280 --> 00:00:40.320 Black holes are astronomical objects famed for their 11 00:00:40.340 --> 00:00:44.330 extreme gravity. Jeremy Schnittman, an astrophysicist at 12 00:00:44.350 --> 00:00:48.370 NASA's Goddard Space Flight Center, wondered if they could serve as a kind of 13 00:00:48.390 --> 00:00:52.440 laboratory for exploring different dark matter models. [Dr. Schnittman]: The leading 14 00:00:52.460 --> 00:00:56.540 particle physics model for dark matter is called weakly 15 00:00:56.560 --> 00:01:00.630 interacting massive particles, or also known as WIMPS. These guys just 16 00:01:00.650 --> 00:01:04.650 fly through the universe without even bumping into anything 17 00:01:04.670 --> 00:01:08.690 or each other. The idea of two WIMPS coming together, 18 00:01:08.710 --> 00:01:12.720 annihilating, and forming gamma rays, is kind of like two bullets hitting 19 00:01:12.740 --> 00:01:16.740 head-on in a crossfire--it's very rare. But when you 20 00:01:16.760 --> 00:01:20.810 go to the area around a supermassive black hole, we expect the 21 00:01:20.830 --> 00:01:24.830 density to be much higher so the probability of annihilation is much higher 22 00:01:24.850 --> 00:01:28.950 and thus detection with a gamma-ray telescope. 23 00:01:28.970 --> 00:01:33.040 Narrator: In Schnittman's computer simulation, a population 24 00:01:33.060 --> 00:01:37.070 of dark matter particles orbits a rapidly spinning black hole. 25 00:01:37.090 --> 00:01:41.170 Close in, at the brink of the black hole's event horizon, the particles 26 00:01:41.190 --> 00:01:45.190 are orbiting at nearly the speed of light. The lightly shaded region 27 00:01:45.210 --> 00:01:49.210 farther out is the ergosphere, a zone where all particles are forced 28 00:01:49.230 --> 00:01:53.280 to move in the same direction as the black hole's spin. 29 00:01:53.300 --> 00:01:57.350 The concentrated dark matter collides and makes gamma rays, 30 00:01:57.370 --> 00:02:01.370 but not all of this light can escape the ergosphere. The gamma rays 31 00:02:01.390 --> 00:02:05.410 most likely to make it out come from the left side, where the black hole spins 32 00:02:05.430 --> 00:02:09.440 toward us. The result is an asymmetric glow. 33 00:02:09.460 --> 00:02:13.490 The highest energy gamma rays come from the center of this region, 34 00:02:13.510 --> 00:02:17.560 corresponding to the black hole's equator. Schnittman's work has 35 00:02:17.580 --> 00:02:21.610 uncovered previously overlooked orbits that can produced extremely energetic 36 00:02:21.630 --> 00:02:25.670 gamma rays, and has shown that the peak energy attainable for this escaping light 37 00:02:25.690 --> 00:02:29.750 is a strong function of the black hole's rotation. 38 00:02:29.770 --> 00:02:33.850 So far, the initial work is focusing on setting upper limits on dark matter 39 00:02:33.870 --> 00:02:37.900 annihilation rates by looking at otherwise quiescent galaxies. But Schnittman's 40 00:02:37.920 --> 00:02:41.950 ultimate ambition is nothing short of an unambiguous detection of dark matter 41 00:02:41.970 --> 00:02:45.990 annihilation around supermassive black holes. [Dr. Schnittman]: To me, 42 00:02:46.010 --> 00:02:50.130 dark matter, black holes, two of the most elusive things in the 43 00:02:50.150 --> 00:02:54.190 universe coming together to help explain each other 44 00:02:54.210 --> 00:02:58.240 is quite poetic. [Music] 45 00:02:58.260 --> 00:03:02.310 [Beeping] 46 00:03:02.330 --> 00:03:06.350 [Beeping] 47 00:03:06.370 --> 00:03:13.240 [Beeping]