The findings, published in Optics Letters, mark a crucial step in advancing the understanding of quantum systems and their ...

Antimatter is a fascinating kind of matter made up of antiparticles, which have a mass equivalent to that of their normal ...

A technology once feared too error-prone to underlie a quantum computer is hitting the big time.

Researchers have observed the distinct transport properties of ultra-cold atoms in a quantum system and studied their behaviour upon sudden exposure to light pulse. This understanding holds potential ...

Laser Cooling: A technique that uses the momentum of photons from laser light to reduce the kinetic energy of atoms or molecules, effectively lowering their temperature. Magneto-Optical Trap (MOT ...

Quantum computers can be built in many ways, writes Dr Tess Skyrme, principal technology analyst at IDTechEx. You may be familiar with the competing modalities claiming to offer various advantages ...

Google, SoftBank invest in QuEras neutral atom quantum computer project Tech giants team up to fund cutting-edge quantum computing innovations ...

At low laser intensity, a short-term overheating of crystalline nanoparticles above the melting temperature, melting, subsequent cooling and solidification are observed. When the radiation energy ...

The atoms were then placed in a grid of laser ... to the development of many exciting low-cold technologies, such as laser cooling. Hopefully, CSF will also pave the path for many groundbreaking ...

However, to enter the regime of quantum optomechanics, it’s necessary to prepare a mechanical object in its ground state. In this review, we briefly introduce the process of ground-state cooling in ...

Industry heavyweights join QuEra. The MIT and Harvard spin-off is developing quantum computers that work at room temperature.