Aurora


IDL TIFF fileThis isn’t a picture of the Earth. It’s Jupiter as seen in ultraviolet light by the Hubble Space Telescope. Just as on Earth, Jupiter’s aurorae are curtains of light resulting from high energy electrons following the planet’s magnetic field into the upper atmosphere. Collisions with atmospheric atoms and molecules produce the observed light.

Image Credit: NASA

Arp 148


arp 148Mayall’s Object is classified in the Atlas of Peculiar Galaxies as Arp 148. It is believed to be the result of two colliding galaxies located 500 million light years away within the constellation of Ursa Major. Astronomers believe that a pair of galaxies collided, resulting in a new object consisting of a ring-shaped galaxy with a tail emerging from it. It is thought that the original collision created a shockwave that initially drew matter into the center which then formed the ring.

Image Credit: NASA

Arp 188


Tadpole Arp 188The Tadpole Galaxy is a disrupted barred spiral galaxy 420 million light-years from Earth in the constellation Draco. Its most dramatic features is a trail of stars about 280,000 light-years long and massive, bright blue star clusters. Like a tadpole here on Earth, the galaxy will likely lose its tail as it grows older—the tail’s stars will probably form smaller satellite galaxies of the larger spiral.

Image Credit: NASA

In the Center of the Lagoon


lagooncenter_hstschmidt_960The Lagoon Nebula, also known as M8, lies about 5,000 light years distant toward the constellation of Sagittarius. Its center is a maelstrom of star formation. The two long funnel-shaped clouds near the center of the picture are each roughly half a light-year long. They were formed by extreme stellar winds and intense energetic starlight. An exceptionally bright nearby star, Herschel 36, dominates the area. Walls of dust hide and redden other hot young stars. This picture spans about 5 light years and combines several images taken by the Hubble Space Telescope.

Image Credit: Hubble Legacy Archive / NASA / ESA
Processing & License: Judy Schmidt

A Zombie Star


zombieA team of astronomers using the Hubble Space Telescope has found a star system that may have left behind a “zombie star” after an unusually weak supernova explosion. A supernova normally obliterates the exploding white dwarf, and the star effectively dies. Scientists believe this faint supernova may have left behind a surviving portion of the dwarf star—a sort of zombie star. The two inset images show before-and-after images captured by Hubble of Supernova 2012Z in the spiral galaxy NGC 1309. The white X at the top of the main image marks the location of the supernova in the galaxy.

Image Credit: NASA

Knots of Wonder


Video Credit: NASA / STSci