Brandon Q. Morris's Blog, page 17

No, unfortunately nobody’s opened a new Ben and Jerry’s on Saturn’s icy moon Enceladus. Not yet, at least. But a new paper just published in the magazine, Icarus, shows again just how valuable the images are from the joint NASA-ESA mission Cassini, even years after the probe was intentionally crashed into Saturn. Specifically, Cassini also delivered the most detailed global infrared images ever taken of Saturn’s moon Enceladus. Combined with photos of Cassini’s other cameras, they provide convin...

Size alone is not always the most important factor. Sometimes, large things also orbit small things – because the details of a system matter. Astronomers have now found a real example for this situation in space, about 80 light-years from us, using the TESS telescope.

The discovery published in Nature shows the likely presence of a planet the size of Jupiter orbiting the white dwarf, WD 1856+534, once every 34 hours.

“This planet is roughly the size of Jupiter, but it also has a very short orbit...

The Milky Way does not travel through the universe alone. It is accompanied on its journey by smaller galaxies. The two largest are the Small Magellanic Cloud and the Large Magellanic Cloud, which are both visible as dusty twin smudges in the southern hemisphere.

When the Magellanic Clouds started orbiting the Milky Way billions of years ago (astronomers are not certain about the timing and the gravitational bond, it’s possible that they are still on their first approach to the Milky Way), an en...

Our Solar System is remarkably flat, because all the planets orbit in the same plane. But that’s not always the case, especially not for planet-forming disks around systems made up of multiple stars. GW Orionis, for example, which is located more than 1300 light-years away in the constellation Orion, has three stars and a deformed, broken-apart disk surrounding these stars.

“Our images show an extreme case where the disk is not flat at all, but is deformed and has a slanted ring that has detache...

The idea that the expansion of the universe is accelerating is taken as fact today. The cause is a repulsive form of energy, dark energy. But its nature remains a mystery. Now, a team of researchers at the University of Hawai’i in Mānoa have made an interesting prediction in The Astrophysical Journal: dark energy, which is responsible for this accelerated growth, could originate from a giant sea of compact objects spread out in the cavities between galaxies.

Since the mid-1960s, physicists have ...

Our hot sister planet, Venus, basically has no potential for life on its surface – the pressure and temperature are much too high. Nevertheless, in “The Clouds of Venus,” a team from NASA made an interesting discovery. I was reminded of this when I read a new press release from Cardiff University. Astronomer Jane Greaves and her colleagues have been analyzing Venus’s atmosphere for years and stumbled across an interesting substance: phosphane (older, but chemically incorrect name: phosphine).

On...

Deinococcus radiodurans is one tough bacterium. Neither the detonation of atom bombs nor the terrors of empty space bother it. But could it travel from planet to planet as a stowaway? Imagine microscopically small lifeforms being transported through space and landing on another planet. Bacteria that find suitable conditions for their survival on the new planet could then multiply and spawn life on the other side of the universe. This theory, which is known as “panspermia,” postulates that microb...

It’s inevitable that the Milky Way and the Andromeda Galaxy will one day collide and merge, even though right now there’s still 2.5 million light-years between them. Thus, the light that we see from Andromeda today was emitted from there 2.5 million years ago. The two most massive members of the Local Group are approaching each other at 120 kilometers per second. In three to four billion years (so while our Sun is still alive), up to 1.3 billion stars of the two galaxies will encounter each othe...

When stars are born, their surroundings are not for the weak or squeamish. Planets have to find their way through a young system that has not yet reached a steady state. If they are unlucky, they will be swallowed up by larger planets – or flung out of the system entirely. Then they become lonely wanderers traversing the universe as ice-cold, rocky hunks that are very difficult to detect.

Nobody knows how many of these so-called “rogue planets” there are, because normal telescopes cannot detect ...

After the Sun sets on the Red Planet and temperatures fall below -62 degrees Celsius, part of its atmosphere begins to glow. It starts at an altitude of about 70 kilometers shortly after sunset. The spots, which are up to 1000 kilometers large and shine as brightly as the Northern Lights on Earth, then move at about 300 kilometers per hour across the night sky. Future astronauts, however, won’t be able to marvel at them, unfortunately, because the spectacle plays out only in the ultraviolet rang...