Quantum simulators are used to model the minute behavior of molecules ... His qubits are each made from a single rubidium atom, trapped in place using lasers and programmed via fluctuations in the ...

“Once the mass of the rubidium atom is measured ... is 3.7 standard deviations above the figure predicted by the Standard Model theory. Physicists are now eagerly awaiting the first results ...

Exploiting the hyperfine structure in repulsive light-assisted collisions (LAC) on a 87-Rubidium atom ... angular momentum from the atom’s electrons. The basic model for light-assisted ...

An illustration shows rubidium atom qubits isolated by scientists at the National Institute of Standards and Technology and proposed for use in quantum computers. A team led by Rice University ...

In its announcement, Airbus said that the plan was to build an engineering model of an accelerometer based on rubidium atom interferometry. “Benefitting from the heritage of its research institutions, ...

When incoming photons from a single-photon source interact with a rubidium atom in this cell, the atom enters a superposition of quantum states. This process can be reversed to make the vapour cell ...

Roee Ozeri's experimental group from the Weizmann Institute of Science, studied collisions between rubidium atoms and ...

which is mainly based on two-photon transition of Rubidium atom ensemble. However, the typically required high cell temperatures (~100 ℃) and laser powers (~10 mW) in such a configuration are ...

Atom Computing QuEra, for example, uses rubidium atoms as qubits. Rubidium appears on the periodic table as one of the alkaline metals, with the atomic number 37. To get the atom to carry quantum ...