Electromagnetic waves travel at 300,000,000 metres per second (m/s) through a vacuum. Often a phrase is used to help remember the order of the groups of the electromagnetic spectrum such as Roman ...

Recently, a research team led by Prof. Huang Zhulin from the Hefei Institutes of Physical Science of the Chinese Academy of ...

Newly published research demonstrates a novel way of generating phonon-polaritons by making electrons collide with crystal lattice structures. The discovery paves the way for cheaper, smaller ...

Hailey Mouser used MagnaWave technology on muscles postmortem to see if she could find a way to improve meat color stability.

In the 1920s, Louis de Broglie in France was studying the new science theories of quantum ... thought of as a constantly fluctuating electromagnetic wave--could sometimes behave like particles ...

In the future, this method could also be used in technical applications with electromagnetic waves ... researchers succeeded in suppressing sound wave propagation in the backward direction ...

This is the home of Oregon State's Hatfield Marine Science ... and the electromagnetic interaction generates current. 5W Infographics After years of experiments in labs, wave pools and even ...

These impressive results emphasize how machine learning could be the key to future joint gravitational- and electromagnetic-wave observations. Now comes the real trial by fire; when the global ...

Professor Fuli Zhang's team pioneered the first millimeter-wave low-profile cross-shaped conformal programmable metasurface. This innovative design adopts a radiation-type programmable surface ...

Jordi Rubi, creator of the Mulatar, told Popular Science their creation “started almost as an accident [that] turned into a remarkable success.” “This achievement brings a refreshing wave of ...

Electromagnetic waves travel at 300,000,000 metres per second (m/s) through a vacuum. Often a phrase is used to help remember the order of the groups of the electromagnetic spectrum such as Roman ...