NGC 6302, Butterfly 

Comet Leonard, Christmas Comet

Lilith by AetherionArtOG

Fairy nap

Petr Horálek on Instagram

More large VtM doodle dumps–mixed of old and new, you can tell when I finally got a visual reference of the guy–this one specifically starring Manuel’s Ventrue employer (and slow burn love interest): Rosario de Angelis (who belongs to @bettiqua)! 

While Manuel acts as Rosario’s loyal ghoul and right hand man around New York, these two have a very messy history with each other that they’re only recently beginning to chisel away at after years of spiteful miscommunication and misunderstandings. A very simple summary of them would be that they’re two vulnerable men who have been hurt in the past and have been too prideful (and scared) to want that to happen to them again, only now discovering this about the other to the point they can begin to truly connect.

In short: they’re two idiots in love (even if one party is aware of their feelings but don’t see the other returning it, while the other refuses to believe they are). A little toxic but suited perfectly for each other.

HiPOD: A Layered Feature in a Crater in Nilosyrtis Mensae

The objective of this observation is to examine a layered feature in an impact crater. The layers may represent layers of mantle from when the climate changed and the shape may be due to the wind. The scene is also found in Context Camera data. (Enhanced color cutout is less than 1 km across; black and white is less than 5 km.)

ID: ESP_075257_2155 date: 16 August 2022 altitude: 291 km

NASA/JPL-Caltech/UArizona

A @nasa postou essa foto hoje, da emissão de raios gama detectada pelo satélite SWIFT, que é um telescópio espacial para raios gama. Uma das coisas mais impressionantes sobre esse evento é que teve origem numa provável explosão estelar que ocorreu a cerca de 2 bilhões de anos luz de distância (também a cerca de 2 bilhões anos atrás). Apesar dessa distância e do tempo percorridos, que reduziram sua intensidade antes de chegar à Terra, o evento foi tão brilhante, tão energético, que saturou sensores de vários satélites e detectores e ionizou a atmosfera de nosso planeta. Imaginem o que teria ocorrido se um evento desses tivesse ocorrido mais próximo do sistema solar.

South Island, New Zealand

5 Unpredictable Things Swift Has Studied (and 1 It’s Still Looking For)

Our Neil Gehrels Swift Observatory — Swift for short — is celebrating its 20th anniversary! The satellite studies cosmic objects and events using visible, ultraviolet, X-ray, and gamma-ray light. Swift plays a key role in our efforts to observe our ever-changing universe. Here are a few cosmic surprises Swift has caught over the years — plus one scientists hope to see.

#BOAT

Swift was designed to detect and study gamma-ray bursts, the most powerful explosions in the universe. These bursts occur all over the sky without warning, with about one a day detected on average. They also usually last less than a minute – sometimes less than a few seconds – so you need a telescope like Swift that can quickly spot and precisely locate these new events.

In the fall of 2022, for example, Swift helped study a gamma-ray burst nicknamed the BOAT, or brightest of all time. The image above depicts X-rays Swift detected for 12 days after the initial flash. Dust in our galaxy scattered the X-ray light back to us, creating an extraordinary set of expanding rings.

Star meets black hole

Tidal disruptions happen when an unlucky star strays too close to a black hole. Gravitational forces break the star apart into a stream of gas, as seen above. Some of the gas escapes, but some swings back around the black hole and creates a disk of debris that orbits around it.

These events are rare. They only occur once every 10,000 to 100,000 years in a galaxy the size of our Milky Way. Astronomers can’t predict when or where they’ll pop up, but Swift’s quick reflexes have helped it observe several tidal disruption events in other galaxies over its 20-year career.

Active galaxies

Usually, we think of galaxies – and most other things in the universe – as changing so slowly that we can’t see the changes. But about 10% of the universe’s galaxies are active, which means their black hole-powered centers are very bright and have a lot going on. They can produce high-speed particle jets or flares of light. Sometimes scientists can catch and watch these real-time changes.

For example, for several years starting in 2018, Swift and other telescopes observed changes in a galaxy’s X-ray and ultraviolet light that led them to think the galaxy’s magnetic field had flipped 180 degrees.

Magnetic star remnants

Magnetars are a type of neutron star, a very dense leftover of a massive star that exploded in a supernova. Magnetars have the strongest magnetic fields we know of — up to 10 trillion times more intense than a refrigerator magnet and a thousand times stronger than a typical neutron star’s.

Occasionally, magnetars experience outbursts related to sudden changes in their magnetic fields that can last for months or even years. Swift detected such an outburst from a magnetar in 2020. The satellite’s X-ray observations helped scientists determine that the city-sized object was rotating once every 10.4 seconds.

Comets

Swift has also studied comets in our own solar system. Comets are town-sized snowballs of frozen gases, rock, and dust. When one gets close to our Sun, it heats up and spews dust and gases into a giant glowing halo.

In 2019, Swift watched a comet called 2I/Borisov. Using ultraviolet light, scientists calculated that Borisov lost enough water to fill 92 Olympic-size swimming pools! (Another interesting fact about Borisov: Astronomers think it came from outside our solar system.)

What's next for Swift?

Swift has studied a lot of cool events and objects over its two decades, but there are still a few events scientists are hoping it’ll see.

Swift is an important part of a new era of astrophysics called multimessenger astronomy, which is where scientists use light, particles, and space-time ripples called gravitational waves to study different aspects of cosmic events.

In 2017, Swift and other observatories detected light and gravitational waves from the same event, a gamma-ray burst, for the first time. But what astronomers really want is to detect all three messengers from the same event.

As Swift enters its 20th year, it’ll keep watching the ever-changing sky.

Keep up with Swift through NASA Universe on X, Facebook, and Instagram. And make sure to follow us on Tumblr for your regular dose of space!

Dear artists, 

lately, a lot of people ask me what style I’m drawing / what I call my style. 

Those people are looking for prompts to feed into generators. A good friend was very helpful, linking me the perfect term to tell them. 

Tell them your style is called “gråtrunka”.