WEBVTT FILE 1 00:00:00.050 --> 00:00:04.120 Convective storms hold an extraordinary 2 00:00:04.140 --> 00:00:08.200 surprise. Under just the right conditions, 3 00:00:08.220 --> 00:00:12.260 they fire off some of the highest-energy light naturally found on Earth-- 4 00:00:12.280 --> 00:00:16.430 terrestrial gamma-ray flashes, or TGFs. 5 00:00:16.450 --> 00:00:20.570 Rising and falling snow and ice particles 6 00:00:20.590 --> 00:00:24.780 repeatedly collide, filling the cloud with electrical charge. Once the 7 00:00:24.800 --> 00:00:28.920 electric field is strong enough, a current flows and a lightning flash 8 00:00:28.940 --> 00:00:32.970 occurs. The flash produces an abrupt reconfiguration of 9 00:00:32.990 --> 00:00:37.100 the electric field. In some cases, a surge of electrons 10 00:00:37.120 --> 00:00:41.280 rushes toward the upper part of the storm at speeds nearly as 11 00:00:41.300 --> 00:00:45.480 fast as light. When deflected by air molecules, these 12 00:00:45.500 --> 00:00:49.590 accelerated electrons give off gamma rays, producing a TGF. 13 00:00:49.610 --> 00:00:53.740 Data from NASA's Fermi Gamma-ray Space Telescope 14 00:00:53.760 --> 00:00:57.840 suggest more than a thousand TGFs occur each day all over the globe. 15 00:00:57.860 --> 00:01:02.020 For the first time, improved data link dozens of 16 00:01:02.040 --> 00:01:06.200 TGFs to specific tropical weather systems. 17 00:01:06.220 --> 00:01:10.300 Tropical storms far from land tend to generate less frequent lightning. 18 00:01:10.320 --> 00:01:14.350 Nevertheless, observations show they are surprisingly prolific producers 19 00:01:14.370 --> 00:01:18.430 of TGFs. Tropical Storm Manuel 20 00:01:18.450 --> 00:01:22.440 made landfall just shy of hurricane strength. As it rapidly 21 00:01:22.460 --> 00:01:26.590 weakened, it produced two TGFs within 24 hours. 22 00:01:26.610 --> 00:01:30.730 More typically, TGFs are associated with the strengthening 23 00:01:30.750 --> 00:01:34.920 phase of a storm. As Typhoon Bolaven rapidly 24 00:01:34.940 --> 00:01:39.050 developed in 2012, thunderstorms nearly 500 miles from 25 00:01:39.070 --> 00:01:43.150 its center launched a TGF with four distinct pulses. 26 00:01:43.170 --> 00:01:47.230 So far, the record-holder for TGFs 27 00:01:47.250 --> 00:01:51.320 is the rapidly strengthening tropical wave that later gave birth 28 00:01:51.340 --> 00:01:55.510 to Hurricane Julio. It produced four TGFs within 29 00:01:55.530 --> 00:01:59.720 100 minutes. A fifth followed the next day. with nothing further. 30 00:01:59.740 --> 00:02:03.850 What scientists learned so far 31 00:02:03.870 --> 00:02:08.040 is that weather tropical storms are capable of producing more TGFs, 32 00:02:08.060 --> 00:02:12.230 and those events can arise anywhere in the storm. 33 00:02:12.250 --> 00:02:16.300 For stronger storms, like hurricanes and typhoons, TGFs are more common 34 00:02:16.320 --> 00:02:20.500 in the outer rain bands, which host the highest lightning flash rates 35 00:02:20.520 --> 00:02:24.730 in these storms. The findings provide new insights 36 00:02:24.750 --> 00:02:28.780 into the relationship between storm intensity, lightning frequency, 37 00:02:28.800 --> 00:02:32.940 and TGFs. This adds another important piece to the puzzle 38 00:02:32.960 --> 00:02:37.130 of our understanding of TGFs and how they are created in thunderstorms-- 39 00:02:37.150 --> 00:02:41.210 the most powerful natural particle accelerators on planet Earth. 40 00:02:41.230 --> 00:02:45.310 41 00:02:45.330 --> 00:02:49.390 On-screen text: NASA astrophysics 42 00:02:49.410 --> 00:02:53.540 [Beeping] 43 00:02:53.560 --> 00:03:02.362 [Beeping]