Thursday 17 October 2024

Feeling the heat: New approach to controlling heat flow in crystals

Researchers have developed a method to control the direction of heat flow in crystals. This miniature device could eventually be used to create advanced thermal-management systems in electronic devices to prevent overheating.

New diamond bonding technique a breakthrough for quantum devices

A paper has solved a major hurdle facing researchers working with diamond by creating a novel way of bonding diamonds directly to materials that integrate easily with either quantum or conventional electronics. With this technique, the team directly bonded diamond with materials including silicon, fused silica, sapphire, thermal oxide, and lithium niobate without an intermediary substance to act as 'glue.' Instead of the several-hundred microns thick bulk diamonds typically used to study quantum qubits, the team bonded crystalline membranes as thin as 100 nanometers while still maintaining a spin coherence suitable for advanced quantum applications.

Engineers set new record on how fast data can be sent wirelessly

A new world record in wireless transmission, promising faster and more reliable wireless communications, has been set by researchers. The total bandwidth of 145GHz is more than five times higher than the previous wireless transmission world record.

Tuesday 15 October 2024

Major step toward fully 3D-printed active electronics

Researchers produced 3D-printed, semiconductor-free logic gates, which perform computations in active electronic devices. As they don't require semiconductor materials, they represent a step toward 3D printing an entire active electronic device.

Sunday 13 October 2024

Researchers create the first ever visualization of photoexcited charges traveling across the interface of two semiconductor materials

Researchers have observed electric charges traveling across the interface of two different semiconductor materials. Using scanning ultrafast electron (SUEM) techniques, the research team has directly visualized the fleeting phenomenon for the first time.

New technique could unlock potential of quantum materials

A research team has devised a unique method to observe changes in materials at the atomic level. The technique opens new avenues for understanding and developing advanced materials for quantum computing and electronics.

Saturday 12 October 2024

Illuminating quantum magnets: Light unveils magnetic domains

Scientists have used light to visualize magnetic domains, and manipulated these regions using an electric field, in a quantum antiferromagnet. This method allows real-time observation of magnetic behaviors, paving the way for advancements in next-generation electronics and memory devices, as well as a deeper understanding of quantum materials.

Feeling the heat: New approach to controlling heat flow in crystals

Researchers have developed a method to control the direction of heat flow in crystals. This miniature device could eventually be used to cre...