… a flux-tunable superconducting qubit as a sensor, our … the phase evolution of the sensor’s
coherence, resulting in an … model by injecting Gaussian flux at the sensor’s degeneracy point, …

… is positive in extending its sensing abilities. We demonstrate our quantum sensing scheme
using a NISQ-era 61-qubit programable superconducting quantum processor. This is first …

… Our experiments demonstrate that a quantum sensor can achieve a frequency resolution
far beyond its intrinsic state lifetime, limited only by the stability of an external synchronization …

… transducers; quantum sensing and quantum metrology; as well as quantum effects in biology.
… phonons as carriers of quantum information between superconducting qubits as well as …

… operate a superconducting qubit to make repeated quantum … the noise to 15.7 dB below the
quantum limit, with overall detector … By coupling a qubit to an arbitrary quantum sensor, more …

… of quantum sensing in non-photonic areas (spin qubits, trapped ions, for example). We also
stress that we adopt a quantum information approach to quantum sensing, which … in quantum …

… an absolute-power quantum sensor based on a superconducting qubit operating in a wide
… a quantum system. For each method, we find that the powers sensed by different qubits with …

… The interaction of photons and coherent quantum systems can be … a quantum radiometer
based on the photon-induced dephasing process of a superconducting qubit for sensing …

… , we outline the concepts and design criteria central to quantum sensors and look toward
the next generation of designer quantum sensors based on new classes of molecular sensors. …

… at the forefront of quantum control including nitrogen-vacancy (NV) centers in diamond,
trapped ion arrays, Rydberg atoms, and superconducting qubits. Unlike previous work our …