Monday, July 13, 2026

How the SKA Will Use Fast Radio Bursts to Decode the Universe

Image of some of the SKA-low antennas. Credit - SKAO

There are parts of the universe that are extremely hard to see, even for our most advanced telescopes. Gas and dust don’t emit any light, and are only visible by the light that they happen to block from stars and galaxies. Magnetic fields are even harder since regular light typically passes right through them. However, according to a new paper available in pre-print on arXiv, by Manisha Caleb of the University of Sydney and their co-authors, we’re currently commissioning a potentially game-changing new tool that could use a particularly violent astronomical phenomenon to provide new insight into these hard to see places.



Are We Missing the Universe's "Noosignatures"?

A picture of a Acheulean hand axe, a type of noosignature that can be found on Earth. Credit - The Portable Antiquities Scheme, Julian Watters

Astrobiology has long been split into two camps: a search for "biosignatures" and a search for "intelligence." These look for very different things, but they also leave a huge gap in between. It took 3.5 billion years for us to go from the first microbe to a civilization that sent radio waves out into the cosmos. Detecting life in between those stages is a relatively untouched aspect of astrobiology—which is also the focal point of a new paper, "Signs and Signatures of Intelligence", available in pre-print on arXiv, by astrobiologist Julia DeMarines.



Sunday, July 12, 2026

Listening for the Universe's Faintest Whispers, a Billion Supernovae at Once

A model showing the inside of the Super Kamiokande detector.

Buried a kilometre underground in Japan, one of the world's most sensitive detectors may have caught its first faint trace of a sound scientists have been straining to hear for decades, the combined whisper of every supernova that has ever exploded across the universe. It is not yet a confirmed discovery, but if it holds up, it could rewrite how we trace the life and death of stars.



Most Of Moon’s Water Likely Remains Chemically Bound In Its Deep Interior

Geologist-Astronaut Harrison H. Schmitt is photographed standing next to a huge, split boulder at Station 6 on the sloping base of North Massif during the third Apollo 17 extravehicular activity (EVA-3) at the Taurus-Littrow landing site. Credit: NASA

Aside from an unknown quantity of water in the Moon’s permanently shaded polar craters, the lion’s share of what water the Moon may have is likely chemically bound in its deep interior.



China Successfully Tests Reusable Long March-10B

China's Long March-10B booster successfully landed in its retrieval net system on July 10th, 2026. Credit: CCTV

On Friday, July 10th, China achieved a major milestone as its Long March-10B completed a its maiden test flight, which included the retrieval of its first stage booster.



Saturday, July 11, 2026

Friday, July 10, 2026

A Rapidly-Growing Black Hole in a Nearby Galaxy Could Provide a Window Into the Early Universe.

Illustration of the black hole at the center of the galaxy SDSS J110546.07+145202.4, highlighting its luminous accretion disk and jet. Credit: MPIfR

The black hole at the centre of a nearby galaxy is growing exceptionally fast, and is producing a burst of radio emission that has never been observed before. With characteristics that are expected in the early Universe, this unique galaxy provides important insights into the processes that governed the growth of the first black holes.