Inbox Astronomy: NASA's Roman to Peer Into Cosmic 'Lenses' to Better Define Dark Matter

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NASA's Roman to Peer Into Cosmic 'Lenses' to Better Define Dark Matter

Release date: Thursday, June 12, 2025 10:00:00 AM Eastern Daylight Time

The Nancy Grace Roman Space Telescope will identify over 160,000 gravitational lenses, which magnify background galaxies that existed earlier in the universe, in search of more information about dark matter.

Dark matter affects how stars move within galaxies, how galaxies build up over time, and how everything in the universe is held together — but no existing tool has directly detected it. While dark matter does not reflect, absorb, or emit light, it can still be indirectly observed by telescopes.

To better characterize dark matter, astronomers look for its influence on the light they can observe. Dark matter possesses mass, therefore it can distort light traveling through the cosmos in a process known as gravitational lensing.

The Nancy Grace Roman Space Telescope, set to survey the sky following its launch, will turn up hundreds of gravitational lenses where a massive galaxy in the foreground magnifies and distorts light from the background galaxy into arcs and swoops. Researchers will use Roman’s data to measure tiny deviations in the repeated imagery of the background galaxies, which will help them measure the effects of dark matter on incredibly small scales and better pinpoint what it is.

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Inbox Astronomy: Moons of Uranus Surprise Scientists in NASA Hubble Study

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Moons of Uranus Surprise Scientists in NASA Hubble Study

Release date: Tuesday, June 10, 2025 2:15:10 PM Eastern Daylight Time

New surface data from largest Uranian moons are contrary to expectations.  

Using Hubble to study the four largest moons of Uranus, a team of astronomers searched for signs of interactions between Uranus' magnetic environment and the surfaces of the moons. They went into the study looking for evidence of one hypothesis, but in analyzing their data, they came up with an entirely different one. Only with Hubble’s unique capabilities was the team able to uncover the surprising finding.

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Inbox Astronomy: Frigid Exoplanet in Strange Orbit Imaged by NASA's Webb

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Frigid Exoplanet in Strange Orbit Imaged by NASA's Webb

Release date: Tuesday, June 10, 2025 2:15:00 PM Eastern Daylight Time

First image ever taken of exoplanet in extremely mis-aligned system

NASA’s James Webb Space Telescope has not only become known for groundbreaking science discoveries across all fields of astrophysics, but also for its gorgeous, intricate images of celestial objects like star-forming regions and solar system planets.

Webb’s images of exoplanets look noticeably different than those sweeping landscapes, though. This is because it is extremely difficult to image planets orbiting stars other than our own Sun. Oftentimes the host stars are thousands of times brighter than the planets that orbit them, and the planets are relatively close to their stars on the sky.

However, researchers can obtain an abundance of information from what appears as just a distant dot in an image.

Webb’s new image of 14 Herculis c, a cold exoplanet orbiting a star 60 light-years away from Earth, has given researchers insight into the planet’s temperature, strange orbit, and atmospheric dynamics.

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Inbox Astronomy: NASA's Webb Rounds Out Picture of Sombrero Galaxy’s Disk

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NASA's Webb Rounds Out Picture of Sombrero Galaxy’s Disk

Release date: Thursday, March 20, 2025 10:00:00 AM Eastern Daylight Time

Stellar light shines from iconic target in near-infrared

The Sombrero galaxy has long had a place in astronomical history as an intriguing object. The first written record of this galaxy was noted in 1781, almost 250 years ago, by Pierre Méchain, a French astronomer and surveyor. Méchain was a longtime collaborator of Charles Messier, of the Messier catalog fame.

While the Sombrero galaxy didn’t earn an official place in the Messier catalog until 1921 (as Messier 104), since it’s easily visible from the Northern Hemisphere with a backyard telescope or even binoculars, it remained top of mind for observers over the years.

Now, new observations from the world’s premiere space observatory have now added to history of this storied galaxy.

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Inbox Astronomy: Apocalypse When? Hubble Casts Doubt on Certainty of Galactic Collision

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Apocalypse When? Hubble Casts Doubt on Certainty of Galactic Collision

Release date: Monday, June 2, 2025 11:00:00 AM Eastern Daylight Time

A Possible Near Miss Between Our Galaxy and the Andromeda Galaxy

Over a decade’s worth of Hubble Space Telescope data was used to re-examine the long-held prediction that the Milky Way galaxy will collide with the Andromeda galaxy in about 4.5 billion years. The astronomers found that, based on the latest observational data from Hubble as well as the Gaia space telescope, there is only a 50-50 chance of the two galaxies colliding within the next 10 billion years. The study also found that the presence of the Large Magellanic Cloud can affect the trajectory of the Milky Way and make the collision less likely. The researchers emphasize that predicting the long-term future of galaxy interactions is highly uncertain, but the new findings challenge the previous consensus and suggest the fate of the Milky Way remains an open question.

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Inbox Astronomy: Another First: NASA Webb Identifies Frozen Water in Young Star System

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Another First: NASA Webb Identifies Frozen Water in Young Star System

Release date: Wednesday, May 14, 2025 11:00:00 AM Eastern Daylight Time

Researchers found water ice throughout a dusty debris disk circling the Sun-like star HD 181327.

We know water in its solid state — ice — exists on moons orbiting Jupiter, Saturn, Uranus, and Neptune. Telescopes have also spotted frozen water on dwarf planets, comets, and other bits of rock that “hang out” in the Kuiper Belt at the edge of our solar system. But for decades, water ice was not confirmed to exist around other stars.

The James Webb Space Telescope has unequivocally changed that: Data from its NIRSpec (Near-Infrared Spectrograph) confirmed the presence of water ice in a dusty debris disk that surrounds a star known as HD 181327.

Water ice heavily influences the formation of giant planets and may also be delivered by comets to fully formed rocky planets. Now that researchers have detected water ice with Webb, they have opened the door to studying how these processes play out in new ways — in many other planetary systems — for all researchers.

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Inbox Astronomy: Webb's Titan Forecast: Partly Cloudy With Occasional Methane Showers

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Webb's Titan Forecast: Partly Cloudy With Occasional Methane Showers

Release date: Wednesday, May 14, 2025 8:00:00 AM Eastern Daylight Time

Astronomers see evidence of clouds bubbling up over Titan’s northern hemisphere.

Saturn’s moon Titan is the only solar system moon with a substantial atmosphere. It also contains a soup of carbon-containing molecules, making it an intriguing target for astrobiological studies despite its frigid temperature of about -290 degrees Fahrenheit (-180 degrees Celsius).

Astronomers have used both probes like Cassini/Huygens and ground-based telescopes like the W.M. Keck Observatories to monitor weather on Titan. Now, a team has combined data from NASA’s James Webb Space Telescope and the Keck II telescope to see evidence of cloud convection in Titan’s northern hemisphere for the first time. Most of Titan’s lakes and seas are located in that hemisphere, and are likely replenished by an occasional rain of methane and ethane.

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Inbox Astronomy: NASA's Webb Reveals New Details, Mysteries in Jupiter's Aurora

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NASA's Webb Reveals New Details, Mysteries in Jupiter's Aurora

Release date: Monday, May 12, 2025 8:00:00 AM Eastern Daylight Time

Webb sees the aurora flickering, fluctuating, and undulating at Jupiter’s north pole.

Earth’s auroras, also known as the Northern and Southern Lights, appear as shimmering curtains visible to observers on the ground and even astronauts aboard the International Space Station. Auroras occur when energetic particles from the Sun are funneled by our magnetic field and slam into the atmosphere near Earth’s poles.

The planet Jupiter experiences auroras on a much grander scale – both larger and hundreds of times brighter than Earth’s. Astronomers turned Webb’s keen gaze to Jupiter and found that its auroras “pop” and “fizz,” changing on timescales of minutes or even seconds.

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Inbox Astronomy: NASA's Hubble Pinpoints Roaming Massive Black Hole

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NASA's Hubble Pinpoints Roaming Massive Black Hole

Release date: Thursday, May 8, 2025 10:00:00 AM Eastern Daylight Time

Wandering black hole ate a star that got in its way.

The Hubble Space Telescope has uncovered a sneaky black hole that betrayed its presence in a Tidal Disruption Event (TDE), where a hapless star was ripped apart and swallowed in a spectacular burst of radiation. Unlike previously observed TDEs, which took place in the center of a galaxy, this event was thousands of light-years from its galactic center. This is the first offset TDE captured by optical sky surveys, and it opens up the entire possibility of uncovering this elusive population of wandering black holes with future sky surveys.

The TDE black hole is far enough away from the galaxy’s central supermassive black hole that they are not gravitationally bound to each other as a binary pair. And, astronomers don’t know if the roaming black hole is coming or going. Did it fall into the galaxy as a result of a merger between two galaxies? Or was it kicked out of a “wresting ring” where three supermassive black hole dynamically interacted?

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