WEBVTT FILE 1 00:00:00.000 --> 00:00:04.050 tone 2 00:00:04.070 --> 00:00:08.050 music 3 00:00:08.070 --> 00:00:12.230 As you get farther away from the sun, the temperature goes up. 4 00:00:12.250 --> 00:00:16.230 Now, this is counterintuitive. It's like if you are trying to heat a marshmallow on 5 00:00:16.250 --> 00:00:20.240 a fire, you put the marshmallow closer to the fire to heat it up 6 00:00:20.260 --> 00:00:24.250 not pull it farther away. This been a mystery for 7 00:00:24.270 --> 00:00:28.270 quite a while. According to the nanoflare heating theory of 8 00:00:28.290 --> 00:00:32.300 the solar corona, there are very many low 9 00:00:32.320 --> 00:00:36.300 energy nanoflare heating events. Energy is released 10 00:00:36.320 --> 00:00:40.330 in a nanoflare, it heats the local plasma to 11 00:00:40.350 --> 00:00:44.510 a very high temperature, around 10 million degrees 12 00:00:44.530 --> 00:00:48.520 and there's such a small amount of this very hot plasma, 13 00:00:48.540 --> 00:00:52.520 that we can't see the individual nanoflares, but 14 00:00:52.540 --> 00:00:56.530 as you cool down through the 2 million degree range, 15 00:00:56.550 --> 00:01:00.570 which happens fairly quickly, and as many of these events occur, 16 00:01:00.590 --> 00:01:04.700 we end up seeing the 2 million degree solar corona. 17 00:01:04.720 --> 00:01:08.720 that we're used to. One of the objectives of the EUNIS flight 18 00:01:08.740 --> 00:01:12.910 was to address this. 19 00:01:12.930 --> 00:01:16.920 EUNIS is an acronym for the Extreme Ultraviolet Normal Incident Spectragraph 20 00:01:16.940 --> 00:01:20.920 It's an instrument that we fly on a sounding rocket 21 00:01:20.940 --> 00:01:24.940 out of White Sands Missile Range, New Mexico. 22 00:01:24.960 --> 00:01:29.130 It reaches an altitude of about 320 kilometers 23 00:01:29.150 --> 00:01:33.130 which is about 200 miles. We record about 24 00:01:33.150 --> 00:01:37.150 6 minutes of observations of the sun. and then the instrument 25 00:01:37.170 --> 00:01:41.150 parachutes back down into the desert where we can retrieve it. 26 00:01:41.170 --> 00:01:45.160 Basically, it's 2 separate instruments, 2 spectrameters, 27 00:01:45.180 --> 00:01:49.170 pointed in the same area of the sun, 28 00:01:49.190 --> 00:01:53.170 so we can be observing a very wide wavelength range. Each 29 00:01:53.190 --> 00:01:57.180 of these channels is very rich in emission lines. 30 00:01:57.200 --> 00:02:01.180 There are lines from many different ionization stages of lots 31 00:02:01.200 --> 00:02:05.200 of different elements. For the purposes of this work, we are interested 32 00:02:05.220 --> 00:02:09.210 in the Fe XIX and the Fe XII emission. 33 00:02:09.230 --> 00:02:13.220 We can see faint emission at those temperatures that provide 34 00:02:13.240 --> 00:02:17.250 the further smoking gun evidence for the nanoflare heating 35 00:02:17.270 --> 00:02:21.260 theory. So, this is very exciting for astronomers 36 00:02:21.280 --> 00:02:29.280 and people who are trying to diagnose what is going on in the sun's atmosphere 37 00:02:29.300 --> 00:02:37.988 beeping