Quantum computers have made extraordinary progress over the past decade, and
significant milestones have been achieved along the path of pursuing universal fault-tolerant …

The currently available techniques for molecular imaging capable of reaching atomic
resolution are limited to low temperatures, vacuum conditions, or large amounts of sample …

The discrete time crystal (DTC) is a nonequilibrium phase of matter that spontaneously
breaks time-translation symmetry. Disorder-induced many-body localization can stabilize the …

Nuclear magnetic resonance spectroscopy is a powerful tool for the structural analysis of
organic compounds and biomolecules but typically requires macroscopic sample quantities …

Quantum registers of nuclear spins coupled to electron spins of individual solid-state defects
are a promising platform for quantum information processing,,,,,,,,,,,,. Pioneering experiments …

Group-IV color centers in diamond are promising candidates for quantum networks due to
their dominant zero-phonon line and symmetry-protected optical transitions that connect to …

Develo** robust microwave-field sensors is both fundamentally and practically important
with a wide range of applications from astronomy to communication engineering. The …

Quantum spin dephasing is caused by inhomogeneous coupling to the environment, with
resulting limits to the measurement time and precision of spin-based sensors. The effects of …

Reliable quantum information processing in the face of errors is a major fundamental and
technological challenge. Quantum error correction protects quantum states by encoding a …

Nuclear magnetic resonance spectroscopy and magnetic resonance imaging at the ultimate
sensitivity limit of single molecules or single nuclear spins requires fundamentally new …