"Most of the external layers of a massive star are removed during the supernova, but some material falls back, making the neutron star spin faster." ...

On September 22, the Chinese Academy of Sciences’ Steady High Magnetic Field Laboratory (CHMFL) sustained the strongest ...

A double magnet cannon is put to the test against a towering structure crafted from magnetic balls. With incredible force, the powerful magnets unleash their energy, colliding with precision to ...

On September 22, the Chinese Academy of Sciences’ Steady High Magnetic Field Laboratory set an impressive record with a resistive magnet sustaining a magnetic field of 42.02 tesla.

Even today, it remains the most powerful permanent magnet in the world. The two researchers — Japanese engineer Masato Sagawa and American metallurgist John Croat — have been awarded the 44th ...

The most common rare-earth magnet alloy ... to iron makes a powerful permanent magnet, and how making a powerful magnet without any rare earth is possible, would require a deeper dive into ...

The magnets used in MRI machines are extremely powerful, typically ranging from 0.5 to 3 Tesla (T), which is significantly stronger than a refrigerator magnet (around 0.001 Tesla) and roughly ...

One possibility is that it is a magnetar—a neutron star with a powerful magnetic field that makes Earth's most powerful magnets look like featherweights. Magnetars generate radio pulses through ...