Quantum annealing is a computing paradigm that has the ambitious goal of efficiently
solving large-scale combinatorial optimization problems of practical importance. However …

In open quantum systems, the precision of metrology inevitably suffers from the noise. In
Markovian open quantum dynamics, the precision can not be improved by using entangled …

Extrinsic interference is routinely faced in systems engineering, and a common solution is to
rely on a broad class of filtering techniques to afford stability to intrinsically unstable systems …

Rapid developments in quantum information processing have been made, and remarkable
achievements have been obtained in recent years, both in theory and experiments …

Among the most popular and well-studied quantum characterization, verification, and
validation techniques is randomized benchmarking (RB), an important statistical tool used to …

Experimentalists seeking to improve the coherent lifetimes of quantum bits have generally
focused on mitigating decoherence mechanisms through, for example, improvements to …

Although nonequilibrium work and fluctuation relations have been studied in detail within
classical statistical physics, extending these results to open quantum systems has proven to …

The wide-ranging adoption of quantum technologies requires practical, high-performance
advances in our ability to maintain quantum coherence while facing the challenge of state …

Essential to the functionality of qubit-based sensors are control protocols, which shape their
response in frequency space. However, in common control routines out-of-band spectral …

Simulation of open quantum dynamics for various Hamiltonians and spectral densities are
ubiquitous for studying various quantum systems. On a quantum computer, only log 2 N …