Report of the Topical Group on Quantum Sensors for Snowmass 2021
- URL: http://arxiv.org/abs/2208.13310v2
- Date: Tue, 20 Sep 2022 19:00:32 GMT
- Title: Report of the Topical Group on Quantum Sensors for Snowmass 2021
- Authors: Thomas Cecil, Kent Irwin, Reina Maruyama, Matt Pyle, Silvia Zorzetti
- Abstract summary: We provide a summary of key quantum sensors technologies - interferometers, optomechanics, and clocks; spin dependent sensors; superconducting sensors; and quantum calorimeters.
We also provide a set of key messages intended to further advance the state of quantum sensors used for high energy physics specific applications.
- Score: 0.0
- License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
- Abstract: Quantum Sensors offer great potential for providing enhanced sensitivity in
high energy physics experiments. In this report we provide a summary of key
quantum sensors technologies - interferometers, optomechanics, and clocks; spin
dependent sensors; superconducting sensors; and quantum calorimeters -
highlighting existing experiments along with areas for development. We also
provide a set of key messages intended to further advance the state of quantum
sensors used for high energy physics specific applications.
Related papers
- Bosonic Entanglement and Quantum Sensing from Energy Transfer in two-tone Floquet Systems [1.2499537119440245]
Quantum-enhanced sensors, which surpass the standard quantum limit (circuit) and approach the fundamental precision limits dictated by quantum mechanics, are finding applications across a wide range of scientific fields.
We introduce entanglement and preserve quantum information among many particles in a sensing circuit.
We propose a superconducting-entangled sensor in the microwave regime, highlighting its potential for practical applications in high-precision measurements.
arXiv Detail & Related papers (2024-10-15T00:48:01Z) - A Perspective on Quantum Sensors from Basic Research to Commercial Applications [2.5014464701850736]
Several types of quantum sensors are now commercially available or are part-way through the commercialization process.
This article covers quantum inertial and gravitational sensors, including gyroscopes, accelerometers, gravimeters, and gravity gradiometers.
arXiv Detail & Related papers (2024-06-30T13:07:52Z) - Thermalization and Criticality on an Analog-Digital Quantum Simulator [133.58336306417294]
We present a quantum simulator comprising 69 superconducting qubits which supports both universal quantum gates and high-fidelity analog evolution.
We observe signatures of the classical Kosterlitz-Thouless phase transition, as well as strong deviations from Kibble-Zurek scaling predictions.
We digitally prepare the system in pairwise-entangled dimer states and image the transport of energy and vorticity during thermalization.
arXiv Detail & Related papers (2024-05-27T17:40:39Z) - Design and simulation of a transmon qubit chip for Axion detection [103.69390312201169]
Device based on superconducting qubits has been successfully applied in detecting few-GHz single photons via Quantum Non-Demolition measurement (QND)
In this study, we present Qub-IT's status towards the realization of its first superconducting qubit device.
arXiv Detail & Related papers (2023-10-08T17:11:42Z) - All-Optical Nuclear Quantum Sensing using Nitrogen-Vacancy Centers in
Diamond [52.77024349608834]
Microwave or radio-frequency driving poses a significant limitation for miniaturization, energy-efficiency and non-invasiveness of quantum sensors.
We overcome this limitation by demonstrating a purely optical approach to coherent quantum sensing.
Our results pave the way for highly compact quantum sensors to be employed for magnetometry or gyroscopy applications.
arXiv Detail & Related papers (2022-12-14T08:34:11Z) - First design of a superconducting qubit for the QUB-IT experiment [50.591267188664666]
The goal of the QUB-IT project is to realize an itinerant single-photon counter exploiting Quantum Non Demolition (QND) measurements and entangled qubits.
We present the design and simulation of the first superconducting device consisting of a transmon qubit coupled to a resonator using Qiskit-Metal.
arXiv Detail & Related papers (2022-07-18T07:05:10Z) - Quantum Sensors for High Precision Measurements of Spin-dependent
Interactions [47.187609203210705]
Experimental methods and technologies developed for quantum information science have rapidly advanced in recent years.
Spin-based quantum sensors can be used to search for myriad phenomena.
Spin-based quantum sensors offer a methodology for tests of fundamental physics that is complementary to particle colliders and large scale particle detectors.
arXiv Detail & Related papers (2022-03-17T17:36:48Z) - Quantum sensing with superconducting circuits [0.0]
Sensors are ubiquitous, they are used in applications across a diverse range of fields including gravity imaging, geology, navigation, security, timekeeping, spectroscopy, chemistry, magnetometry, healthcare, and medicine.
Current progress in quantum technologies inevitably triggers the exploration of quantum systems to be used as sensors with new and improved capabilities.
arXiv Detail & Related papers (2021-03-19T21:01:10Z) - Circuit Quantum Electrodynamics [62.997667081978825]
Quantum mechanical effects at the macroscopic level were first explored in Josephson junction-based superconducting circuits in the 1980s.
In the last twenty years, the emergence of quantum information science has intensified research toward using these circuits as qubits in quantum information processors.
The field of circuit quantum electrodynamics (QED) has now become an independent and thriving field of research in its own right.
arXiv Detail & Related papers (2020-05-26T12:47:38Z) - On the capability of a class of quantum sensors [10.894655702718783]
We investigate the capability of a class of quantum sensors which consist of either a single qubit or two qubits.
A quantum sensor is coupled to a spin chain system to extract information of unknown parameters in the system.
arXiv Detail & Related papers (2020-03-19T10:56:08Z)
This list is automatically generated from the titles and abstracts of the papers in this site.
This site does not guarantee the quality of this site (including all information) and is not responsible for any consequences.