A team of scientists has developed a powerful new way to detect subtle magnetic signals in common metals like copper, gold, ...

A clever method from Caltech researchers now makes it possible to unravel complex electron-lattice interactions, potentially transforming how we understand and design quantum and electronic materials.

POSTECH, MPK, and Max Planck Institute for Nuclear Physics have revealed the hidden dynamics of electrons during quantum ...

The ability to switch magnetism, or, in other words, to change the orientation of a material's magnetic moments, using only ...

The updated Class 12th Physics syllabus for the academic year 2025-26 has been released by the Rajasthan Board on its ...

We review the historical and modern understanding of the most basic equation of friction, Amontons' law, which describes phenomena that were already understood and studied by Leonardo da Vinci 500 ...

We demonstrate the sub-cycle optical field emission of electron wave packets with bunch charges up to 12 femtoCoulombs from a tungsten nanotip illuminated by intense THz pulses.

Here’s what to expect from Project Kuiper’s first full-scale satellite launch United Launch Alliance will send 27 Kuiper satellites into low Earth orbit as we begin a full-scale deployment of our ...

Indian Air Force pilot Shubhanshu Shukla and the Axiom-4 crew are set to dock with the International Space Station today at 4:30 PM IST.

The prevailing reactive force fields are typically based on the bond-order concept or other predefined chemical frameworks, along with implicit electronic treatments and the incorporation of intricate ...

Path following control of micrometer-sized tools is the key to improve automation capabilities at the small scales. This paper addresses the issue of path following control for piezoelectric inertia ...