Monday, June 29, 2026

The "Shadow Blaster" Galaxy's Role in High-energy Cosmic Neutrinos

A conceptual view of the neutrino accelerator in the starburst galaxy “Shadow Blaster”. It lies in the same direction as the high-energy neutrino event IC 210922A. Actual radio observations by ALMA are shown in the zoom-in inset. Due to gravitational lensing, the ALMA observations show four distorted images of Shadow Blaster, which has been identified as the source of the neutrinos (indicated by the Greek letter nu). An artist’s conception of Shadow Blaster’s true appearance is shown in the circle. Credit: MITOS

On September 22, 2021, the IceCube Neutrino Detector in Antarctica caught a blast of neutrinos as it passed through the solar system. These neutrinos were remarkably high-energy and came from a galaxy 11 billion light-years away. That's a period of the Universe's history known as "Cosmic Noon". It's when star formation in galaxies was at its most active and that provided an interesting clue to their origin. The source of the neutrinos was nicknamed "Shadow Blaster" because the event that created the neutrinos was hidden by a dense cloud of dust, which made it invisible to optical observations.



An Alternative to Black Holes: Gravastars with Big Bangs Inside

The problem with stellar mass black holes is that general relativity can't account for their strangeness. But the theoretical gravastars, an alternative to black holes, don't clash with general relativity in the same way. Nobody has figured out how they could form through Einstein's equations, until now. Image Credit: Daniel Jampolski and Luciano Rezzolla, Goethe University Frankfurt

Stellar mass black holes may not be black holes at all. Instead, they could be a type of extremely compact star called a gravastar, which mimics a black hole. This is according to theoretical phsyicists who have discovered a solution to Einstein's Theory of General Relativity that doesn't automatically result in a black hole when a star collapses at the end of its life.



Sunday, June 28, 2026

Feedback from Young Stars Influences Galaxy Evolution

An artist's conception of the evolution of a galaxy. The process of star formation not only creates new stars, but introduces interesting new effects that eventually shape the galaxies where they live. Credit: Getty Images/OSU

Star formation is a major driver in galaxy evolution, right up there with the collisions and mergers that shape all galaxies. Researchers led by Ohio State University graduate student Debosmita Pathak, studied 18,000 star-forming regions in nearby spiral galaxies to get a better handle on the influence of starbirth.



Europa’s Ice Shell Secrets Unlocked by Ground Radar Study

Composite image displaying the NASA Goldstone Solar System Radar sending radar signals to Europa, which are collected by the U.S. National Science Foundation Green Bank Telescope. (Credit: NSF/AUI/NSF NRAO/P.Vosteen)

Jupiter’s moon, Europa, has become high-value real estate for astrobiologists and the search for life beyond Earth. This is because the small moon, which is slightly smaller than Earth’s Moon, boasts a massive subsurface ocean of liquid water that scientists estimate contains about double the amount of water of all Earth’s oceans combined. As seen on Earth, water equals life, so scientists are eager to continue to explore Europa in any way possible to determine if it could harbor life as we know it, or even as we don’t know it.



Hubble Spots Two Galaxy Clusters in the Process of Merging

This NASA Hubble Space Telescope image features a swarm of galaxies in the galaxy cluster called CL0016+1609 or MACS J0018.5+1626. Credit: NASA/ESA/STScI/H. Ebeling/D. Coe/G. Kober

This NASA Hubble Space Telescope image features a galaxy cluster, called CL0016+1609 or MACS J0018.5+1626, that is very bright at X-ray wavelengths and is one of the most extensively studied clusters at X-ray and radio wavelengths. The X-ray observations of this cluster revealed that it is two clusters merging along our line of sight.



Scientists Confirm that Two Gamma-Ray Bursts Were Caused by Collapsing Neutron Stars

In this AI-generated image, a collapsar produces a gamma-ray burst. Credit: LNAL

Researchers from the Los Alamos National Laboratory have confirmed that two long-duration gamma-ray bursts (GRBs) originated from the collapse of neutron stars into black holes.



Saturday, June 27, 2026

Listening to the One Place That Swallows Everything

Polarised emission of the black hole at the heart of M87. The lines mark the orientation of polarisation, which is related to the magnetic field around the shadow of the black hole (Credit : EHT Collaboration)

The event horizon of a black hole should be impossible to study. It’s the point of no return, the boundary where gravity grows so strong that not even light can escape, so by definition nothing can carry word of it back to us. Yet a team of scientists have found a way to reach it and found a hidden signal, a faint trace, never read before, carrying information from the very edge of the horizon in the instant before it formed. From it they measured the new black hole's spin and surface gravity, and opened a fresh way to test whether Einstein's theory survives in the most extreme gravity there is.