At the heart of the atomtronics experiment is our window atom chip technology (shown below). By patterning wires directly over the chip window it becomes possible to produce samples of ultracold atoms ...

Slow-light effects in ultracold atom clouds known as Bose–Einstein condensates offer rich opportunities for storing and processing optical signals. Although the high speed of light, 300,000 km s ...

The Cold Atoms Lab (CAL) is a compact, atom chip-based facility for examining ultra-cold quantum gases such as Bose-Einstein condensates (BEC). CAL represents a new era in ISS research, as now, for ...

Researchers from the Chinese Academy of Sciences have experimentally demonstrated counterflow superfluidity (CSF) for ...

The atom cloud’s behavior was carefully monitored ... associated with direct observations in electronic systems. Using ultracold atoms provided a practical solution to the challenges of ...

Ultracold atoms are some of the most sensitive force sensors. They are useful for such work because at the coldest possible temperature – absolute zero – they take on quantum properties that ...

Our research focuses on the development of optical clocks using ultracold atomic systems. By tightly confining ytterbium in the ideal ... We explore enhanced quantum control, precision measurement, ...

Comprehensive understanding of the cold atom physics obtained from this project should contribute both fundamental science and practical applications. The project consists of the following four ...

A research team has achieved a groundbreaking quantum simulation of the non-Hermitian skin effect in two dimensions using ultracold fermions, marking a significant advance in quantum physics research.