Scientists from Osaka University of Japan have developed a new technology that can greatly improve the performance of electronic devices. In the study published in the ACS Applied Electronic Materials magazine, the vanadium dioxide (VO₂) layer called “metamalzeme” on the traditional silicone infrastructure was placed.

IMPORTANT DEVELOPMENT IN ELECTRONICS

The remarkable feature of this material is that it can dynamically transition between conductivity and insulation. When VO₂ heated, metal -like tiny regions are formed and expanding. By checking the heat, these metal regions act as “lively adjustable electrodes. dynamically phase change with temperature change and function as electrode.

Another feature of this material is the ability to strengthen electric currents with “avalanche effect”. When the VO₂ focuses the electric field on the tiny spaces between the metal areas, it initiates a chain reaction and provides a signal increase. Even the weak terahertz impacts greatly strengthens the impacts, which makes the photodtector extremely sensitive.

There are critical application areas

This discovery not only improves the perception of Terahertz, but also thinks that manufacturers can integrate VO₂ -based devices into a minimal change in the existing semiconductor technologies. Theoretically, devices can dynamically trigger the phase passage in VO₂ with precise temperature control and manipulate electronic signals. This technology may be useful in areas where adaptable circuit components are needed on platforms such as reconstructive computers or advanced imaging systems.

The ability to fine -tuning the electrical properties of vanadium dioxide makes it an attractive candidate for the next generation wireless communication systems. The Terahertz range is located between microwave and infrared radiation, and telecom companies explore this range for ultra -fast data transmission. Devices that can efficiently detect and modulate the script signals can play a vital role in the development of future 6G networks.

Researchers have also discovered that this innovative structure has some natural electrical adjustment capabilities. This material can be a harbinger of developed sensors, high -speed communication and new generation of information processing.