The race to build the first useful quantum computer is on and may revolutionize the world with brand new capabilities, from ...

It's extremely rare, but given all the atoms in the Universe and the more-than-100,000 years it takes for atoms to finally and stably become neutral, it's an incredible and intricate part of the ...

All of the atoms in the Universe are neutral, and there are simply too many of them for the starlight to penetrate. It took hundreds of millions of years for the Universe to allow the light through.

So, neutral atoms provide all the tools needed for gate-based quantum computing: a long-lived quantum state, the ability to set and read that state, and the ability to arbitrarily connect any two ...

An atom consists of a heavy center, called the nucleus, made of particles called protons and neutrons. An atom has lighter ...

Currently, we know that atoms are neutral to within 10-21 of an electron's charge. The experiment proposed in this paper, which takes into account many of the experimental details, is expected to ...

The atoms typically prefer to sit where the light field is most intense. And there’s a problem with ions: They all have an electric charge of the same sign. That means the qubits repel one another.

All systems go: A beam of laser light in Jeff Thompson's lab at Princeton University, where he and his colleagues recently demonstrated a new way of erasing errors in a neutral-atom quantum computer. ...

Atoms are the basis of all the elements in the universe, the building blocks of all visible matter, and the secret to nuclear power. Skip to main content Open menu Close menu ...

To top it all, this process is nearly 100% efficient at neutralizing the speeding ions and converting them to fast atoms. Accelerated neutral atoms are very important for many applications.