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#quantumsensors — Public Fediverse posts

Live and recent posts from across the Fediverse tagged #quantumsensors, aggregated by home.social.

  1. 🔬🧲 Levitation breakthrough! OIST scientists create a frictionless disk that levitates over magnets—no external power needed. Overcomes eddy damping for ultra-sensitive sensors detecting dark matter & quantum forces. Future tech unlocked! Read more: thedebrief.org/levitation-brea

    @goodnews

    #GoodNews #LevitationTech #MagneticInnovation #ScienceWin #QuantumSensors

  2. 🧲 Can a molecule in your body really sense the Earth's magnetic field?

    🔗 Quantum theory of a potential biological magnetic field sensor: Radical pair mechanism in flavin adenine dinucleotide biradicals. Computational and Structural Biotechnology Journal, DOI: doi.org/10.1016/j.csbj.2024.11

    📚 CSBJ Quantum Biology and Biophotonics: csbj.org/qbio

    #QuantumBiology #Magnetoreception #RadicalPairMechanism #SpinChemistry #FAD #QuantumSensors #Biophysics #OpenQuantumSystems

  3. Researchers developed #NuclearSpin microscopy, a new type of #microscopy using #QuantumSensors. A specially prepared diamond chip converts nuclear #MagneticResonance signals into optical signals, enabling high-resolution #imaging: go.tum.de/197301 🔬

    📷C. Hohmann / @MCQST

  4. You can't just have one...

    Microwave grapes next to each other and you'll see sparks between them. Why? Their shape, water content, and metal ion concentration.

    They can act as microwave resonators running powerful quantum sensors. These are used, for example, in increasing the accuracy of atomic clocks.

    In this case, the optimum length and diameter of the grapes was 27mm & 17mm. Variety/growing conditions were not reported... :-)

    eurekalert.org/news-releases/1

    #Grapes #Science #QuantumSensors

  5. In 2024 in Canada, different #QuantumSensors are being trialled in the arctic or in healthcare environments, these are tangible. That's great. So what?

  6. At #ICIS today legendary brain scientist Patricia Kuhl was raving about sensors based on Nitrogen vacancy (NV) centers in diamonds. they could revolutionize Magnetoencephalography (MEG) by offering high sensitivity at room temperature, reducing costs and complexity. The future of brain activity mapping looks bright! #Neuroimaging #QuantumSensors #MEG #ScienceInnovation
    sciencedaily.com/releases/2024.

  7. At #ICIS today legendary brain scientist Patricia Kuhl was raving about sensors based on Nitrogen vacancy (NV) centers in diamonds. they could revolutionize Magnetoencephalography (MEG) by offering high sensitivity at room temperature, reducing costs and complexity. The future of brain activity mapping looks bright! #Neuroimaging #QuantumSensors #MEG #ScienceInnovation
    sciencedaily.com/releases/2024.

  8. At #ICIS today legendary brain scientist Patricia Kuhl was raving about sensors based on Nitrogen vacancy (NV) centers in diamonds. they could revolutionize Magnetoencephalography (MEG) by offering high sensitivity at room temperature, reducing costs and complexity. The future of brain activity mapping looks bright! #Neuroimaging #QuantumSensors #MEG #ScienceInnovation
    sciencedaily.com/releases/2024.

  9. Eva Weig, Professor for Nano and #QuantumSensors, and her team are producing vibrating nanostrings large enough to be seen under an #electronmicroscope. They could become fundamental components of a new #quantumtechnology: go.tum.de/091531

    @MCQST
    📷M.Jooss

  10. Quantum sensors are revolutionizing robotics. They use the quantum properties of how particles behave at the atomic scale to detect tiny movements or changes in gravitational, electric or magnetic fields. The tiny size of most quantum sensors, plus their high sensitivity, have already led to their use as tactile sensing elements in fibre optic cables for robotic arms. #QuantumSensors #Robotics #RevolutionizingTechnology
    venturebeat.com/data-infrastru