Have you ever wondered why all the planets in our solar system orbit the Sun in roughly the same flat plane? This fascinating ...

To better understand Jupiter’s primordial stages, researchers turned to the tiniest of the planet’s 92 known moons. Almathea ...

The orbital angular momentum of electrons has long been considered a minor physical phenomenon, suppressed in most crystals and largely overlooked. Scientists have now discovered that in certain ...

Often, when planets form in a protoplanetary disk, they shed orbital angular momentum, exchanging this angular momentum with the disk that they are accreting material from in order to grow.

Jupiter may have once been more than twice its current size, with a magnetic field 50 times stronger, say scientists who ...

Jupiter wasn’t always the planet we know today—it was once twice as big, had a magnetic field 50 times stronger, and its ...

Jupiter, the largest planet in the solar system, has long intrigued scientists seeking to understand its mysterious origins.

After exhausting the available physical dimensions for multiplexed holography, researchers have found new opportunities in the orbital angular momentum (OAM) dimension of light. By sampling ...

2024.240001 discusses robust detection technology of orbital angular momentum of partially coherent vortex light fields in complex environment. The orbital angular momentum (OAM) carried by the ...

You don't need us to tell you that Jupiter, which has more than twice the mass of all the other planets in the Solar System ...

According to their work, Jupiter's radius was once two to two-and-a-half times its current radius—large enough to contain ...