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Jun 20, 2024

Spatiotemporal Progression Patterns of Dopamine Availability and Deep Gray Matter Volume in Parkinson Disease–Related Cognitive Impairment

Posted by in categories: biotech/medical, neuroscience

This study explored spatiotemporal progression patterns of striatal dopamine availability and regional brain volume based on cognitive status among patients with Parkinson disease:


Background and Objectives.

Jun 20, 2024

Elusive Clock Transition in Strontium Revealed

Posted by in category: futurism

Researchers have measured a hard-to-observe electronic transition in strontium that was predicted six decades ago.

Jun 20, 2024

A New Way to Transport Spin Currents

Posted by in categories: computing, particle physics

Spintronics relies on the transport of spin currents for computing and communication applications. New device designs would be possible if this spin transport could be carried out by both electrons and magnetic waves called magnons. But spin transport via magnons typically requires electrically insulating magnets—materials that cannot be easily integrated with silicon electronics. A way to bypass that requirement has now been found by Matthias Althammer at the Bavarian Academy of Sciences and Humanities in Germany and his colleagues [1]. The researchers say that this finding could have important implications for both spintronic applications and fundamental research on spin transport.

To demonstrate their concept, Althammer and his colleagues placed two magnetic, metallic strips—each hosting coupled electrons and magnons—on a nonmagnetic, insulating substrate. In the first strip, the researchers converted electron charge currents to electron spin currents. These spin currents were transferred first to the magnons in the same strip, then across the substrate to the magnons in the second strip, and finally to the electrons in the second strip. The researchers detected this spin transport by converting the electron spin currents in the second strip to charge currents.

Althammer and his colleagues studied how the spin transport between the two strips depended on temperature and strip separation. These measurements suggested that the transport was achieved via a magnetic dipole–dipole interaction between the strips. But the researchers could not rule out the possibility that it partly or mainly occurred via crystal vibrations in the substrate. Solving this open problem, which the researchers plan to do in upcoming work, will help in optimizing devices based on this principle.

Jun 20, 2024

Q&A: New method confines light inside an organic material to form a hybrid quantum state

Posted by in categories: materials, quantum physics

A team of international scientists led by the University of Ottawa have gone back to the kitchen cupboard to create a recipe that combines organic material and light to create quantum states.

Jun 20, 2024

New photonic chip spawns nested topological frequency comb

Posted by in category: computing

Scientists on the hunt for compact and robust sources of multicolored laser light have generated the first topological frequency comb. Their result, which relies on a small silicon nitride chip patterned with hundreds of microscopic rings, appears in the journal Science.

Jun 20, 2024

High-temperature superconductivity: Exploring quadratic electron-phonon coupling

Posted by in category: quantum physics

A new study published in Physical Review Letters (PRL) explores the potential of quadratic electron-phonon coupling to enhance superconductivity through the formation of quantum bipolarons.

Jun 20, 2024

Researchers develop platform to probe, control qubits in silicon for quantum networks

Posted by in categories: internet, quantum physics

The quantum internet would be a lot easier to build if we could use existing telecommunications technologies and infrastructure. Over the past few years, researchers have discovered defects in silicon—a ubiquitous semiconductor material—that could be used to send and store quantum information over widely used telecommunications wavelengths. Could these defects in silicon be the best choice among all the promising candidates to host qubits for quantum communications?

Jun 20, 2024

Turning infrared light visible: New device uses 2D material to up-convert infrared light

Posted by in category: materials

The human eye can only see light at certain frequencies (called the visible spectrum), the lowest of which constitutes red light. Infrared light, which we can’t see, has an even lower frequency than red light. Researchers at the Indian Institute of Science (IISc) have now fabricated a device to increase or “up-convert” the frequency of short infrared light to the visible range.

Jun 20, 2024

Discovery of one-dimensional topological insulator for qubits, other technology

Posted by in category: quantum physics

A joint research team that included members from Tohoku University has unveiled a new topological insulator (TI), a unique state of matter that differs from conventional metals, insulators, and semiconductors.

Jun 20, 2024

Generation of intense terahertz waves with a magnetic material

Posted by in category: materials

Terahertz waves are being intensely studied by researchers around the world seeking to understand the “terahertz gap.” Terahertz waves have a specific frequency that puts them somewhere between microwaves and infrared light. This range is referred to as a “gap” because much remains unknown about these waves.

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