Scientists have unlocked the secret world of dark excitons — tiny energy carriers crucial for the future of solar power and ...

How can the latest technology, such as solar cells, be improved? An international research team led by the University of ...

How can the latest technology, such as solar cells, be improved? An international research team is helping to find answers to questions like this with a new technique. For the first time, the ...

They also observed long-sought-after evidence to support the theory — the observation of an ‘electron hole’, a conspicuous absence of electrons. Read the paper: Field–particle energy ...

Chorus waves, quick bursts of energy known to occur relatively close to Earth and around other planets, were found in an ...

In May, a new achievement in the field of quantum science was published in the journal Science, with Chinese scientists ...

Neutrinos, often referred to as ‘ghost particles,’ are nearly massless and can travel through matter without significant ...

These short electromagnetic pulses resemble bird songs; however, they pose a significant threat to the functioning of satellites orbiting our planet. Where do these unique signals come from? According ...

which says that there is no state an electron can be in for which we can perfectly predict both its position and its momentum ahead of time 2. Instead, quantum theory describes the state of a ...

Quantum calculations amount to sophisticated estimates. But in 1931, Hans Bethe intuited precisely how a chain of particles ...

A huge detector in the Mediterranean Sea spotted the most energetic neutrino from space to date. The particle could shed light on the universe’s most extreme phenomena.

Although the driving force behind the formation of chorus waves is still debated, the leading theory is called “plasma instability ... The team also found evidence of “electron holes”—areas of the ...