It is control that turns scientific knowledge into useful technology: in physics and engineering
it provides a systematic way for driving a dynamical system from a given initial state into a …

Many proposals to scale quantum technology rely on modular or distributed designs
wherein individual quantum processors, called nodes, are linked together to form one large …

Tabletop tests of quantum gravity (QG) have long been thought to be practically impossible.
However, remarkably, because of rapid progress in quantum information science (QIS), such …

Developments over the last two decades have opened the path towards quantum
technologies in many quantum systems, such as cold atoms, trapped ions, cavity-quantum …

The amount of work that can be extracted from a quantum system can be increased by
exploiting the information obtained from a measurement performed on a correlated ancillary …

We generalize a standard benchmark of reinforcement learning, the classical cartpole
balancing problem, to the quantum regime by stabilizing a particle in an unstable potential …

The quantum Zeno effect asserts that quantum measurements inhibit simultaneous unitary
dynamics when the “collapse” events are sufficiently strong and frequent. This applies in the …

The Zeno effect occurs in quantum systems when a very strong measurement is applied,
which can alter the dynamics in non-trivial ways. Despite being dissipative, the dynamics …

We generalize and extend the stochastic path-integral formalism and action principle for
continuous quantum measurement introduced in Chantasri, Dressel, and Jordan [Phys. Rev …

We experimentally and theoretically investigate the quantum trajectories of jointly monitored
transmon qubits embedded in spatially separated microwave cavities. Using nearly quantum …