Little supernova is big discovery: The origin of binary neutron stars

October 12, 2018

An international research team discovered the first recorded "ultra-stripped supernova," a rare, faint type of supernova that is believed to play a role in the formation of binary neutron star systems. These findings will advance our understanding of a wide variety of topics ranging from gravitational waves to the origin of precious metals like gold and platinum.

A collision between two neutron stars produces a variety of heavy elements, including precious metals. Such a collision also produces electromagnetic waves and gravitational waves like those observed in August 2017. Although these collisions have been observed, it was unknown how two neutron stars could form close enough together to eventually spiral down into each other and collide.

A neutron star is a dense, compact object left behind when a massive star sheds most of its outer mass in a supernova explosion. Thus a neutron star binary system must have started out as a binary system of two massive stars. But this posed a problem because it was believed the second explosion would expel most of the remaining mass and make the system unstable rather than forming a neutron star binary system.

A research team including Takashi Moriya at the National Astronomical Observatory of Japan (NAOJ) proposed a new formation hypothesis where the gravitational force of the neutron star formed during the first supernova strips most of the outer layer of the remaining star. When this "ultra-stripped" star then explodes, the supernova has much less ejecta and the system can remain stable. The team named this second type of supernova "ultra-stripped supernovae."

Moriya simulated the light from ultra-stripped supernovae. His simulations predicted the explosion energy would be smaller than normal supernovae and that the brightness would peak at 5-10 days after the explosion. The team also speculated that there might be a diffuse helium envelope surrounding an ultra-stripped supernova.

Given these predictions, a team led by Kishalay De, a PhD student at California Institute of Technology, searched the data archive of the intermediate Palomar Transient Factory (iPTF) and found "iPTF14gqr," a peculiar supernova for which the brightness evolution and spectroscopic features closely matched Moriya's simulations, including hints of a diffuse helium envelope.

Moriya explains, "This is the first clear detection of a supernova which can result in the formation of a binary neutron star system. In addition to the observations of binary neutron stars by gravitational and electromagnetic waves, the detections of ultra-stripped supernovae will play an important role in understanding the birthplace of elements."

Moriya's simulations were performed on NAOJ's PC cluster and the supercomputer "ATERUI." This research was published in Science on October 12, 2018.

National Institutes of Natural Sciences

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