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Sunday, December 22, 2024

Physicists Shatter Space Myth, Transmitting Sound across Vacuum

The key to this extraordinary achievement lies in the concept of piezoelectric materials

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Russell Chattaraj
Russell Chattaraj
Mechanical engineering graduate, writes about science, technology and sports, teaching physics and mathematics, also played cricket professionally and passionate about bodybuilding.

FINLAND: Transmitting sound across vacuum! In a groundbreaking feat that challenges long-held assumptions about sound transmission, physicists Zhuoran Geng and Ilari Maasilta from the Nanoscience Center at the University of Jyväskylä, Finland, have successfully demonstrated the transmission of sound waves through a vacuum.

Their research, published in the prestigious journal Communications Physics, could have far-reaching implications for various industries and technologies.

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The key to this extraordinary achievement lies in the concept of piezoelectric materials. These materials possess the unique property of generating an electrical response when subjected to vibrations or sound waves. Building on this property, Geng and Maasilta postulated that since an electric field can exist in a vacuum, it might be possible for sound waves to traverse this seemingly empty space.

To put this theory into action, the researchers conducted meticulous experiments involving two solid materials with a vacuum gap between them. The critical requirement was that the gap’s size had to be smaller than the wavelength of the sound wave. Astonishingly, their findings revealed that this approach could enable sound transmission not only in the audible frequency range (Hz–kHz) but also in higher frequency domains such as ultrasound (MHz) and hypersound (GHz).

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“In most cases, the effect is small, but we also found situations where the full energy of the wave jumps across the vacuum with 100% efficiency, without any reflections,” explained Professor Ilari Maasilta, one of the study’s lead authors.

This remarkable discovery opens up unprecedented possibilities for harnessing sound transmission through a vacuum, which could revolutionize various fields of science and technology.

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One promising application of this phenomenon lies in the realm of microelectromechanical components (MEMS), including smartphone technology. The ability to transmit sound through a vacuum could lead to the development of highly efficient and compact MEMS devices with enhanced audio capabilities.

Furthermore, the findings could potentially revolutionize heat control mechanisms, offering new ways to manage and manipulate heat in various systems.

The implications of Geng and Maasilta’s research extend beyond the realms of conventional understanding, heralding a new era of innovation and exploration. As we delve deeper into the intricacies of sound propagation and vacuum dynamics, it becomes increasingly evident that there are still uncharted territories waiting to be explored.

This pioneering study reminds us that even the most firmly established principles can be overturned, ultimately pushing the boundaries of human knowledge and technological advancement.

Also Read: Mars Spinning Faster, Shortening Martian Day, NASA’s InSight Lander Reveals

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  • Russell Chattaraj

    Mechanical engineering graduate, writes about science, technology and sports, teaching physics and mathematics, also played cricket professionally and passionate about bodybuilding.

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