In addition to shaping the interior of rocky planets, molten rock located deep within these planets may also contribute to ...

Researchers at Kyushu University have shown that careful engineering of materials interfaces can unlock new applications for ...

Earth’s magnetic field nearly collapsed long ago. What saved it explains why life survived and why the planet remains ...

Despite their remarkable flexibility, today’s soft artificial muscles struggle to deliver meaningful force. This ...

Deep beneath the surface of distant exoplanets known as super-Earths, oceans of molten rock may be doing something ...

NIIEFA has tested a high-temperature superconductor wire (HTSC) for the TRT tokamak, achieving record current and magnetic ...

As AI and IoT drive explosive global data growth, energy-efficient information devices have become critical for sustainability. Kyushu University researchers demonstrate that inserting an atomic-scale ...

A dual cross-linked magnetic polymer solves the fundamental trade-off limiting soft artificial muscles, achieving ...

Researchers have succeeded in developing the smallest fully autonomous robot in history. It measures less than 1 millimeter and can swim underwater for months powered only by light.

At Armagh Observatory, Italian-born astronomer Dr. Stefano Bagnulo shares his lifelong passion for astronomy, his ...

New research suggests that the Earth's solid inner core is softer and more dynamic than previously thought, changing ideas.

Scientists have uncovered 97-million-year-old magnetic fossils that hint at a mysterious, extinct marine animal equipped with ...