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All about SN 1987A
by investigating astronomer Dr. Nino Panagia

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SN 1987A in the Large Magellanic Cloud

Supernova 1987A exploded on 1987 February 23, in the Large Magellanic Cloud. Because of its relative proximity to us (a mere 168,000 light years) SN 1987A is by far the best-studied supernova of all time. Immediately after the discovery was announced, literally every telescope in the southern hemisphere started observing this exciting new object.

In addition to light, particle emission was detected from the supernova. "Kamiokande II" is a neutrino telescope whose heart is a huge cylindrical tub, 52 feet in diameter and 53 feet high, containing about 3000 metric tons of water; it is located in the Kamioka mine in Japan, 3,300 feet underground. On February 23, around 7:36 am Greenwich time, the Kamiokande II recorded the arrival of 9 neutrinos within an interval of 2 seconds, followed by 3 more neutrinos 9 to 13 seconds later. Simultaneously, the same event was revealed by the IMB detector (located in the Morton-Thiokol salt mine near Faiport, Ohio), counted 8 neutrinos within about 6 seconds. A third neutrino telescope (the "Baksan" telescope, located in the North Caucasus Mountains of Russia, under Mount Andyrchi) also recorded the arrival of 5 neutrinos within 5 seconds from each other. This makes a total of 25 neutrinos detected on Earth, out of the 10 billions of billions of billions of billions of billions of billions of them produced in the explosion! Neutrinos are elusive particles of very small (possibly zero) mass and very high energy, which are produced in huge quantities in the supernova explosion of a massive star. They interact so infrequently with ordinary matter that almost all of them of them can travel through the entire diameter of the Earth without being stopped; so they are extremely difficult to detect. Nevertheless, a little more than two dozen neutrinos was more than enough to understand what was going on. And, in fact, the detection of those neutrinos was a perfect confirmation of the theoretical expectations for the core collapse of a massive star. The core-collapse process is believed to be the cause of the explosions of massive stars at the end of their lives, and SN 1987A provided strong experimental confirmation of this idea.

Unfortunately, the Hubble Space Telescope was not yet in operation when the supernova exploded, since it was not launced until April 1990. The first images of SN 1987A, taken with the ESA Faint Object Camera on August 23-24, 1990, revealed the inner circumstellar ring in all its ``glory" and detail ( cf. Jakobsen et. al. 1991).

close up of rings

As shown in the Heritage image, the supernova remnant (the almost star-like object in the center) is surrounded by inner and outer ring structures, with the whole object set within huge clouds of diffuse emitting gas. This three-color image was constructed from several Hubble images of the supernova and its surroundings, taken over several years and through five different color filters (B, V, R, ionized oxygen, and hydrogen-alpha) that blend together for a breathtaking view.

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Space Telescope Science Institute astronomers Nino Panagia and Martino Romaniello (who is currently at the European Southern Observatory), with cooperation from the principal investigator of the Hubble program on SN 1987A, Robert Kirshner (Harvard-Smithsonian Center for Astrophysics), graciously donated their black-and-white mosaics in the individual filters to the Hubble Heritage Project. From these the Heritage team constructed the color image which are released this month in honor of the 12th anniversary of the explosion.

Since 1990, Hubble has kept an attentive eye on SN 1987A, obtaining both imaging and spectrographic observations at least once a year. The results of this ongoing study include:

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