Recent decades have witnessed great developments in the field of quantum simulation—
where synthetic systems are built and studied to gain insight into complicated, many-body …

A great challenge in current quantum science and technology research is to realize artificial
systems of a large number of individually controlled quantum bits for applications in …

Our world, of course, changed in many other ways as well since the publication of the first
edition. The global pandemic impacted all areas of society and will probably transform how …

Individual neutral atoms excited to Rydberg states are a promising platform for quantum
simulation and quantum information processing. However, experimental progress to date …

Optical tweezers provide a versatile platform for the manipulation and detection of single
atoms. Here, we use optical tweezers to demonstrate a set of tools for the microscopic …

The extraordinary advance in quantum computation leads us to believe that, in the not-too-
distant future, quantum systems will surpass classical systems. Moreover, the field's rapid …

Open any textbook on quantum mechanics, and the two-state system of choice is likely to be
a spin-½ particle, such as an electron. The corresponding states, spin up and spin down …

Quantum gates and entanglement based on dipole–dipole interactions of neutral Rydberg
atoms are relevant to both fundamental physics and quantum information science. The …

The neutral atom platform has become an attractive choice to study the science of quantum
information and quantum simulation, where intense efforts have been devoted to the …

A single particle trapped in a harmonic potential can exhibit rich motional quantum states
within its high-dimensional state space. Quantum characterization of motion is key, for …