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Fluorescent Nanodiamonds for Quantum Sensing in Biology.
Wiley Interdisciplinary Reviews: Nanomedicine and NanobiotechnologyFluorescent nanodiamonds exhibiting outstanding optical and biocompatible properties are the subject of increased studies and attention in physics and biology.
Jia Su +6 more
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Private and Robust States for Distributed Quantum Sensing
QuantumDistributed quantum sensing enables the estimation of multiple parameters encoded in spatially separated probes. While traditional quantum sensing is often focused on estimating a single parameter with maximum precision, distributed quantum sensing seeks
Lu'is Bugalho +3 more
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Criticality-Enhanced Quantum Sensing with a Parametric Superconducting Resonator
PRX QuantumQuantum metrology, a cornerstone of quantum technologies, exploits entanglement and superposition to achieve higher precision than classical protocols in parameter-estimation tasks.
Guillaume Beaulieu +6 more
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Collective quantum enhancement in critical quantum sensing
Communications PhysicsCritical systems represent a valuable resource in quantum sensing and metrology. Critical quantum sensing (CQS) protocols can be realized using finite-component phase transitions, where criticality arises from the rescaling of system parameters rather ...
Uesli Alushi +4 more
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Quantum dots for temperature sensing.
Scientiae Radices, 2023Quantum dots are three-dimensional nanoparticles of semiconductors with typical sizes ranging from 2 to 10 nm. Due to the quantum confinement effect the energy gap increase with the size decreasing resulting in size-depended and fine-tunable optical characteristics.
Natalia Doskaliuk +2 more
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Integrated Satellite-Ground Variational Quantum Sensing Networks
IEEE Communications MagazineQuantum sensing networks (QSNs) embody a fusion of quantum sensing and quantum communication, achieving both Heisenberg precision and unconditional security through the exploitation of quantum phenomena such as superposition and entanglement.
Uman Khalid +3 more
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Frontiers in Optics 2014, 2014
We use compressive sensing to measure hitherto difficult quantum signals, high-dimensional entanglement and quantum images.
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We use compressive sensing to measure hitherto difficult quantum signals, high-dimensional entanglement and quantum images.
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Quantum modeling of common sense
Behavioral and Brain Sciences, 2013AbstractQuantum theory is a powerful framework for probabilistic modeling of cognition. Strong empirical evidence suggests the context- and order-dependent representation of human judgment and decision-making processes, which falls beyond the scope of classical Bayesian probability theories.
Noori, H., Spanagel, R.
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Nature Photonics
Developing superior quantum sensing strategies ranging from ultrahigh precision measurements to complex structural analyses is at the heart of quantum technologies.
Wentao Ji +12 more
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Developing superior quantum sensing strategies ranging from ultrahigh precision measurements to complex structural analyses is at the heart of quantum technologies.
Wentao Ji +12 more
semanticscholar +1 more source
Quantum guidelines for solid-state spin defects
Nature Reviews Materials, 2021Gary Wolfowicz +2 more
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