Theoretical Physicists have found the solution to reduce high-pitched noises. In a new study, they report that materials made from tapered chains of spherical beads could help dampen sounds that lie at the upper range of human hearing or just beyond.
The impacts of such noises on health are uncertain. But some research suggests that effects could include nausea, headaches, dizziness, impaired hearing or other symptoms. The study was published in the journal Granular Matter.
According to Surajit Sen, PhD, professor of physics at the University at Buffalo College of Arts and Sciences, "There is a fair amount of ultrasonic stuff around us, and much of it has effects that are unknown. In warmer areas, you have pest control systems that are strongly reliant on ultrasonic emissions to drive out the pests. You have ultrasonics from machinery, from drilling. Certain lamps may emit these high-frequency noises." What does it do to our hearing? And in return, what does it do to our brain?
"Because of these unknowns, we thought it would be of potential value to design a system that kills off the high-frequency sound," he added.
Sen co-authored the study with Luis Paulo Silveira Machado, PhD, professor of physics at the Federal University of Para in Brazil. Machado did part of the work as a visiting scholar at UB with the financial support of his home university, and Sen's research was partially supported by a Fulbright-Nehru Academic and Professional Excellence Fellowship.
The study used computational modelling to explore how well various materials would dampen incoming sounds with frequencies up to 20 kilohertz -- high enough that only some people can hear these noises.
Machado and Sen researched a number of materials, all made from spherical beads of varying sizes surrounded by plastic walls.
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The best set-up they found consisted of tapered chains of beads made from a metal called tungsten carbide, alternating with tapered chains of beads made from a plastic called Delrin. In computer simulations, this system effectively helped to filter high-frequency noises of varying loudness, greatly reducing these sounds.
The scientists have not yet tested the material in the laboratory. But if it works, the noise-filtering system could be used in headphones or other barriers that dampen high-frequency sound, the researchers say.
"An advantage of the proposed device is its simple configuration: spherical beads properly confined and positioned," Machado says. "This proposal allows a prototype of easy construction, with low cost and little maintenance. In addition, its configuration is scalable, being adaptable for small or large volumes. Our next step is to redirect the output signals, which is under study.