How do rogue planetary-mass objects, celestial bodies that fall between planets and stars in size, come into existence? An international team of astronomers, including researchers from the University ...

Frequent disk encounters in dense environments such as the Trapezium Cluster could generate ... material of star forming clouds or via planet-building processes, but rather from the gravitational ...

Frequent disk encounters in dense environments like the Trapezium Cluster could generate ... material of star-forming clouds or via planet-building processes, but rather from the gravitational ...

"Planetary-mass objects don't fit neatly into existing categories of stars or planets." Are they stars? Are they planets? Or are they neither? Some rogue planetary mass objects that wander the cosmos ...

We put Starfield Optics' flagship Géar telescope — the Starfield Géar 115 Triplet APO — to the test. It did not disappoint.

Frequent disk encounters in dense environments like the Trapezium Cluster could generate hundreds of ... born not from the raw material of star-forming clouds or via planet-building processes, but ...

Astronomers have long been puzzled by mysterious, planet-sized objects drifting freely through space, unattached to any star. These cosmic wanderers, called planetary-mass objects (PMOs), weigh less ...

Frequent disk encounters in dense environments such as the Trapezium Cluster could generate hundreds of ... born not from the raw material of star forming clouds or via planet-building processes, but ...