Without electrons there would be no electron microscopes, and therefore no close-ups like this image of pollen.
Heiti Paves/Wikimedia Commons
The advent of electron microscopy and nanobiology has moved our appreciation of the living world to unprecedentedly small scales – with entirely new benefits and potential pitfalls to consider.
Spin, liquid – just add quantum.
Here's how they could revolutionise science.
Ice cold physics: hunting for neutrinos in Antarctica.
Sven Lidström, IceCube/NSF
A cubic kilometer of clear, stable ice could help physicists answer big questions about cosmic rays and neutrinos. Hardy scientists collect data via a unique telescope at the frozen bottom of the world.
Neutrinos, we’re looking for you! Japan’s Super-Kamiokande detector.
Kamioka Observatory, ICRR (Institute for Cosmic Ray Research), The University of Tokyo
They're beyond tiny and super mysterious. Neutrinos are an elemental particle that might just help us understand the structure and evolution of the universe.
The latest data from the particle accelerator that found the Higgs Boson has confirmed another of our theories about how the universe works.
Gearing up for another run.
CERN's huge particle accelerator has been switched back on after a two-year upgrade to continue its search for answers.
The epoch of the leptons existed for nine seconds after the Big Bang.
Big Bang by Shutterstock
Subatomic particles have shaped and continue to shape our universe but despite perfect predictions by physicists, the theory about unseen particles is still wrong.