Pairs of planetary-mass objects, floating freely in space, intrigue scientists with their nature and origin. With masses ...

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 ...

These bridges then collapse under their own gravity, forming independent PMOs, with some even emerging as paired binary systems. "The Trapezium Cluster is the ultimate PMO factory — its crowded ...

"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 ...

These tidal bridges eventually collapse into dense filaments ... Frequent disk encounters in dense environments like the Trapezium Cluster could generate hundreds of PMOs, explaining the observed ...

These bridges then collapse under their own gravity, forming independent PMOs — some even emerging as paired binary systems. "The Trapezium Cluster is the ultimate PMO factory - its crowded ...

A New Theory on PMO Formation PMOs, often found in young star clusters like Orion’s Trapezium ... These bridges collapse into dense filaments, which then fragment into compact cores.

trapezium, and trapezoid; a combination of these two patterns occurred in 15%. Twenty operations were performed on 19 patients with the scapholunate advanced collapse pattern. Eighteen of 19 ...

These tidal bridges eventually collapse into dense filaments ... Frequent disk encounters in dense environments like the Trapezium Cluster could generate hundreds of PMOs, explaining the observed ...

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 ...