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Aug 24, 2024

World’s Fastest Microscope Freezes Time To Capture Moving Electrons

Posted by in categories: bioengineering, chemistry, physics

University of Arizona researchers have developed an ‘attomicroscopy’ technique using a novel ultrafast electron microscope that captures moving electrons in unprecedented detail, paving the way for significant scientific breakthroughs in physics and other fields.

Imagine having a camera so advanced that it can capture freeze-frame images of a moving electron—an object so fast it could orbit the Earth multiple times in just a second. Researchers at the University of Arizona have developed the world’s fastest electron microscope capable of this remarkable feat.

They believe their work will lead to groundbreaking advancements in physics, chemistry, bioengineering, materials sciences, and more.

Aug 24, 2024

Test of a prototype quantum internet runs under New York City for half a month

Posted by in categories: internet, quantum physics

To introduce quantum networks into the marketplace, engineers must overcome the fragility of entangled states in a fiber cable and ensure the efficiency of signal delivery. Now, scientists at Qunnect Inc. in Brooklyn, New York, have taken a large step forward by operating just such a network under the streets of New York City.

Aug 24, 2024

Researcher explores how you can stretch your mind to grasp quantum entanglement

Posted by in category: quantum physics

My new article, “Quantum Entanglement of Optical Photons: The First Experiment, 1964–67,” is intended to convey the spirit of a small research project that reaches into uncharted territory. The article breaks with tradition, as it offers a first-person account of the strategy and challenges of the experiment, as well as an interpretation of the final result and its significance. In this guest editorial, I will introduce the subject and also attempt to illuminate the question “What is a paradox?”

Aug 24, 2024

Could we ever harness quantum vacuum energy?

Posted by in categories: energy, quantum physics

The fabric of spacetime is roiling with vibrating quantum fields, known as vacuum energy. It’s right there, everywhere we look. But could we ever get anything out of it?

Aug 24, 2024

Dynamics of K2Ni2(SO4)3 governed by proximity to a 3D spin liquid model

Posted by in category: quantum physics

Recently, quantum spin liquid signatures have been found in 3D systems. Here, using a combination of inelastic neutron scattering and calculations, the authors study the dynamic magnetic properties of a 3D quantum spin liquid candidate K2Ni2(SO4)3, identifying a spin liquid region in the theoretical phase diagram.

Aug 24, 2024

Chiral topological light for detection of robust enantiosensitive observables

Posted by in category: singularity

Figure 5 is the second key result of our work. It demonstrates a robust route to decomposing the contributions to the overall chiral optical signal, originating from interfering pathways encoding different topological charge. The decomposition relies on straightforward Fourier analysis of the far-field image. Given the ability to precisely control the orientation of the polarization ellipse of the incident infrared light, chiral topological light generated by such infrared drivers stands out as a robust probe of molecular chirality, capable of inducing strongly enantiosensitive total intensity signals as well as giant rotations of intense spectral features.

The concept of chiral topological light introduced here is not limited to vortex beams: other members of the larger family of structured light beams32,33,34 can be used to create locally and globally chiral topological light. We envision using tightly focused radially polarized beams, which are known to posses strong longitudinal components35, central to the concept of local chirality. Skyrmionic beams36,37 could also be used, for example to induce topological distributions with radially dependent topological charges. From the perspective of structured light32,33,34,38 the temporally chiral vortex introduced here represents a new kind of polarization singularity, which could be analysed by extending the current framework from monochromatic 3D fields39,40 to polychromatic 3D fields13,41,42.

Our method is not limited to high harmonics. Its extension to low-order parametric processes such as chiral sum-frequency generation43 has potential for non-destructive enantiosensitive imaging in the ultraviolet region and for exploiting intrinsically low-order nonlinearities for enantiosensitive detection in the X-ray domain16,17.

Aug 24, 2024

Ultra-sensitive photothermal microscopy technique detects single nanoparticles as small as 5 nm

Posted by in categories: biotech/medical, chemistry, nanotechnology

The detection of individual particles and molecules has opened new horizons in analytical chemistry, cellular imaging, nanomaterials, and biomedical diagnostics. Traditional single-molecule detection methods rely heavily on fluorescence techniques, which require labeling of the target molecules.

Aug 24, 2024

How Demagnetization Drives Infrared Emissions

Posted by in category: futurism

Theoretical work explains why terahertz radiation is emitted when a laser pulse demagnetizes a magnetic thin film.

Aug 24, 2024

Autism and Brain Growth Patterns Unraveled by Yale Scientists

Posted by in categories: biotech/medical, neuroscience

A Yale-led study reveals that two types of neurodevelopmental abnormalities emerging early in brain development are linked to autism, with these differences influenced by brain size.

By using brain organoids derived from autistic children’s stem cells, researchers uncovered distinct neural growth patterns, potentially guiding personalized treatments and diagnoses.

Early Brain Development and Autism.

Aug 24, 2024

NZ to trial world-first commercial long-range, wireless power transmission

Posted by in categories: business, energy

A New Zealand-based startup has developed a method of safely and wirelessly transmitting electric power across long distances without the use of copper wire, and is working on implementing it with the country’s second-largest power distributor.

The dream of wireless power transmission is far from new; everyone’s favorite electrical genius Nikola Tesla once proved he could power light bulbs from more than two miles away with a 140-foot Tesla coil in the 1890s – never mind that in doing so he burned out the dynamo at the local powerplant and plunged the entire town of Colorado Springs into blackout.

Tesla’s dream was to place enormous towers all over the world that could transmit power wirelessly to any point on the globe, powering homes, businesses, industries and even giant electric ships on the ocean. Investor J.P. Morgan famously killed the idea with a single question: “where can I put the meter?”

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