Quantum bits, or qubits, which are required for building quantum computers, come in different kinds. In recent years, many research institutes and companies have focused on superconducting circuits and trapped ions. However, neutral atoms trapped with laser light also have a lot going for them: since they carry no electric charge, they are less sensitive to disturbances. Moreover, trapping with laser light makes it easy to realize several thousand qubits in a single system – using superconductors or ions this is much more difficult. Nevertheless, neutral atoms have their own problems. In quantum computers, qubits exist in superposition states of the logic values 0 and 1. To perform calculations with them, one needs to execute quantum logic operations, also known as quantum gates. For such quantum gates, until now highly excited electronic states (Rydberg atoms) or collisions between atoms, as well as the tunnel effect, have mostly been used. However, particularly the tunnel effect, whereby particles can go through obstacles that would be unsurmountable according to classical physics, depends very strongly on the intensity of the laser light. Even tiny imperfections or fluctuations can, therefore, strongly diminish the quality of the quantum gate. Very robust against experimental noise A team of researchers at ETH Zurich led by Tilman Esslinger, professor at the Institute for Quantum Electronics, has now succeeded in realising a so-called swap gate, or a quantum exchange, with extremely high quality using only a geometric phase. This geometric phase causes the state of the particles to switch depending on the path they take, and not because of external disturbances. This makes the system very robust against experimental noise. Moreover, the researchers were able to demonstrate that the gate can be applied to several thousands of qubits simultaneously. The results, which were recently published in the scientific journal external page Nature, pave the way for future pr...
First seen: 2026-04-10 08:52
Last seen: 2026-04-10 10:54