WEBVTT FILE 1 00:00:00.000 --> 00:00:04.271 Have scientists found our first exomoon? Looks like they still 2 00:00:04.271 --> 00:00:08.208 need more observations to be a hundred percent sure. The moons 3 00:00:08.208 --> 00:00:11.778 in our solar system are very diverse, some with liquid water, 4 00:00:11.778 --> 00:00:14.615 some that are potentially habitable, so being able to 5 00:00:14.615 --> 00:00:17.518 observe moons in different solar systems would give us a whole 6 00:00:17.518 --> 00:00:21.021 new treasure trove of interesting worlds to study. The 7 00:00:21.021 --> 00:00:23.891 team of astronomers from Columbia University sifted 8 00:00:23.891 --> 00:00:26.894 through data from 284 Kepler measurements of transiting 9 00:00:26.894 --> 00:00:29.863 exoplanets. A transit happens when a planet passes directly 10 00:00:29.863 --> 00:00:33.834 between us and its star and blocks out a small portion of 11 00:00:33.834 --> 00:00:37.070 the star’s light, which produces a dip in the amount of light 12 00:00:37.070 --> 00:00:41.008 coming from that star over time, called a light curve. Out of the 13 00:00:41.008 --> 00:00:45.345 284 planets the team looked at. they found one planet with an 14 00:00:45.345 --> 00:00:49.249 extra wobble in its light curve that might be a moon. The team 15 00:00:49.249 --> 00:00:52.486 only had Kepler data from three transits of this exoplanet, so 16 00:00:52.486 --> 00:00:55.589 they sent a proposal to the Hubble Space Telescope to 17 00:00:55.589 --> 00:00:59.192 capture more data of this possible exomoon. Hubble can 18 00:00:59.192 --> 00:01:02.429 measure light curves much more precisely than Kepler, so Hubble 19 00:01:02.429 --> 00:01:05.933 can more definitively confirm or debunk the existence of this 20 00:01:05.933 --> 00:01:09.636 exomoon once it gets multiple transits. So far, the team of 21 00:01:09.636 --> 00:01:13.740 astronomers has collected Hubble observations of one transit of 22 00:01:13.740 --> 00:01:17.945 exoplanet Kepler-1625b. The planet transited across the face 23 00:01:17.945 --> 00:01:22.082 of its star for 19 hours, as expected. Then, about three and 24 00:01:22.082 --> 00:01:25.485 a half hours later, a second smaller dip in the light curve 25 00:01:25.485 --> 00:01:30.023 started. That right there is intriguing evidence of an 26 00:01:30.023 --> 00:01:32.459 exomoon. The Hubble observation of this star unfortunately 27 00:01:32.459 --> 00:01:36.029 concluded before the possible moon finished its transit, so 28 00:01:36.029 --> 00:01:39.266 Hubble hasn’t yet observed a full transit. This 29 00:01:39.266 --> 00:01:42.369 light curve appears like it shows an exomoon, but we can’t 30 00:01:42.369 --> 00:01:46.006 say it’s a definitive detection until Hubble observes at least 31 00:01:46.006 --> 00:01:50.077 one more transit. If this is actually a moon, what do we know 32 00:01:50.077 --> 00:01:54.047 about it? The planet Kepler-1625b is likely several 33 00:01:54.047 --> 00:01:57.351 times the mass of Jupiter. Its possible moon appears to be 34 00:01:57.351 --> 00:02:00.320 about the mass and radius of Neptune. Neptune-sized moons are 35 00:02:00.320 --> 00:02:03.857 obviously not something that exist in our own solar system, 36 00:02:03.857 --> 00:02:07.894 and we’re not sure exactly how such a moon would form. Finding 37 00:02:07.894 --> 00:02:10.731 planets and moons so different from the ones in our own solar 38 00:02:10.731 --> 00:02:13.800 system gives us a lot more knowledge of the many diverse 39 00:02:13.800 --> 00:02:17.571 ways planetary systems can exist. In the near future, 40 00:02:17.571 --> 00:02:20.607 scientists hope to use the Hubble Space Telescope to try to 41 00:02:20.607 --> 00:02:23.810 confirm the discovery of this exomoon, and they’ll use Hubble 42 00:02:23.810 --> 00:02:26.580 for follow-up observations of other planetary systems 43 00:02:26.580 --> 00:02:30.617 discovered by observatories like Kepler and the recently launched 44 00:02:30.617 --> 00:02:34.721 Transiting Exoplanet Survey Satellite, TESS. So if you like 45 00:02:34.721 --> 00:02:37.924 planets – and honestly, who doesn’t – stay tuned to learn 46 00:02:37.924 --> 00:02:41.628 more about all sorts of fascinating new worlds. 47 00:02:41.628 --> 00:00:00.000 www.nasa.gov/hubble @NASAHubble