As telescopes have become more powerful, it’s turned out our solar system is not the only game in town: There are millions of other planets out there in the galaxy. But we’re still teasing out clues about what they are actually like.

One of the puzzles is a kind of planet that appears to be one of the most common types in the universe. Known as “mini-Neptunes” because they run a little smaller than Neptune in our solar system, these planets are made of some mix of rock and metal, with thick atmospheres mostly made of hydrogen, helium, and perhaps water. Strangely, despite their abundance elsewhere, they have no analog in our own solar system, making the population something of an enigma.

But a new study published Nov. 5, led by Prof. Eliza Kempton with the University of Chicago, adds a new wrinkle to our best picture yet of these distant worlds. The research is published in The Astrophysical Journal Letters.

A monumental complex built by the Maya around 3,000 years ago was modeled on a map of the cosmos, new fieldwork has revealed.

A detailed survey of the Aguada Fénix site reveals that not only was the monument significantly larger than initial surveys suggested – laid out in the shape of a cross with axes measuring 9 and 7.5 kilometers (5.6 and 4.7 miles) – but it was also designed as a cosmogram, an architecture symbolizing the cosmos.

What’s even more remarkable about the structure is that the site contains none of the trappings of social inequality, such as elite residences or sculptures of rulers.

On November 5, 2025, two new images of the interstellar object 3I/ATLAS were released. They show a compact source of light without a clear cometary tail. The coma is not very different in morphology than its appearance in the Hubble Space Telescope on July 21, 2025 (accessible here).

This is surprising in view of NASA’s JPL report here of a non-gravitational acceleration — normalized at a heliocentric value of 1 au:

1. A radial acceleration away from the Sun of 1.1x10^{-6} au per day squared.

Reports from the Minor Planet Center (here) and NASA’s Jet Propulsion Laboratory (here) just released new data on the interstellar object 3I/ATLAS following its perihelion passage on October 29, 2025. The new data covers the period between October 31 and November 4.

When compared to previous data obtained on October 5–8, it appears that 3I/ATLAS brightened by a factor of ~5 in the Green-band which is centered at a wavelength of 0.464 micrometers.

The value of the non-gravitational acceleration was reduced by a third relative to the value reported on October 29. This reduction is within the uncertainties. The net detection is now more robust, standing at a level of 3.7 standard deviations.

Our Milky Way galaxy never sits still: it rotates and wobbles. And now, data from the European Space Agency’s Gaia space telescope reveal that our galaxy also has a giant wave rippling outwards from its centre.