Study reveals that structural transformations occur just as fast as molecular vibrations

Professor Michelle Simmons' team at UNSW Sydney has demonstrated a compact sensor for accessing information stored in the electrons of individual atoms—a breakthrough that brings us one step closer ...

The experimental investigation of ultracold quantum matter makes it possible to study quantum mechanical phenomena that are otherwise inaccessible. A team led by the Innsbruck physicist Francesca Ferlaino ...

Physicists have created atomic clocks so precise that they can measure deformations in spacetime itself, according to new research.

Researchers have experimentally demonstrated two cornerstones of quantum physics—entanglement and Bell inequality violations—with two macroscopic mechanical resonators.

USC scientists have demonstrated a theoretical method to enhance the performance of quantum computers, an important step to scale a technology with potential to solve some of society's biggest challenges.

A team of researchers has determined how to use hydrogen ions to electrically control magnetism within a thin sample of a magnetic material.

1975 Christchurch - New Zealand. Dirac's comments here can be nicely joined with the words of Heisenberg at http://www.youtube.com/watch?v=ZqfTO4NTqJ4 . Thanks to ThoughtThinksYou.,,this too is well worth listening to.

Branimir Vasilic has also kindly cleaned…

Can anyone help me with this question please? (UPDATE: Just Answered Aug 2014 - Big thanks to Brent Follin - PhD Student on Quora - who kindly persisted with me until I understood his answer. He supplied very Intuitive comments - Brent reminds me of this…

I would like to thank very much my supervisor Prof. Paul Barker from the University of Auckland. His patience and great perseverance is still so much appreci...

This amazing set of videos was originally posted by Richard Smythe (http://www.youtube.com/watch?v=P174LmmQYy4) so please see that page for extra information. The original videos had very poor sound quality so I cleaned up the audio and re-uploaded them here.

Scientists came up with quantum mechanics as a theory to describe the universe. What if that theory could be undone by a single photon and the human eye?

The classic quantum mechanics problem is a particle in a 1-D box. Here is a numerical solution to that problem.

The intrinsic spin of the electron is one of the strangest properties introduced by quantum physics, but without it we wouldn't have complex molecules, permanent magnets, or solid objects.

Super-solid found by comparing materials that can and cannot be super-solids.

Quantum computers could vastly increase the capabilities of IT systems, bringing major changes worldwide. However, there is still a long way to go before such a device can actually be constructed, because ...