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Physicists discovered special transverse sound wave

Date:
December 7, 2021
Source:
City University of Hong Kong
Summary:
A research team has discovered a new type of sound wave: the airborne sound wave vibrates transversely and carries both spin and orbital angular momentum like light does. The findings shattered scientists' previous beliefs about the sound wave, opening an avenue to the development of novel applications in acoustic communications, acoustic sensing and imaging.
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Can you imagine sound travels in the same way as light does? A research team at City University of Hong Kong (CityU) discovered a new type of sound wave: the airborne sound wave vibrates transversely and carries both spin and orbital angular momentum like light does. The findings shattered scientists' previous beliefs about the sound wave, opening an avenue to the development of novel applications in acoustic communications, acoustic sensing and imaging.

The research was initiated and co-led by Dr Wang Shubo, Assistant Professor in the Department of Physics at CityU, and conducted in collaboration with scientists from Hong Kong Baptist University (HKBU) and the Hong Kong University of Science and Technology (HKUST). It was published in Nature Communications, titled "Spin-orbit interactions of transverse sound."

Beyond the conventional understanding of sound wave

The physics textbooks tell us there are two kinds of waves. In transverse waves like light, the vibrations are perpendicular to the direction of wave propagation. In longitudinal waves like sound, the vibrations are parallel to the direction of wave propagation. But the latest discovery by scientists from CityU changes this understanding of sound waves.

"If you speak to a physicist about airborne transverse sound, s/he would think you are a layman without training in university physics because textbooks say that airborne sound (i.e., sound propagating in the air) is a longitudinal wave," said Dr Wang. "While the airborne sound is a longitudinal wave in usual cases, we demonstrated for the first time that it can be a transverse wave under certain conditions. And we investigated its spin-orbit interactions (an important property only exists in transverse waves), i.e. the coupling between two types of angular momentum. The finding provides new degrees of freedom for sound manipulations."

The absence of shear force in the air, or fluids, is the reason why sound is a longitudinal wave, Dr Wang explained. He had been exploring if it is possible to realise transverse sound, which requires shear force. Then he conceived the idea that synthetic shear force may arise if the air is discretised into "meta-atoms," i.e. volumetric air confined in small resonators with size much smaller than the wavelength. The collective motion of these air "meta-atoms" can give rise to a transverse sound on the macroscopic scale.

Conception and realisation of "micropolar metamaterial"

He ingeniously designed a type of artificial material called "micropolar metamaterial" to implement this idea, which appears like a complex network of resonators. Air is confined inside these mutually connected resonators, forming the "meta-atoms." The metamaterial is hard enough so that only the air inside can vibrate and support sound propagation. The theoretical calculations showed that the collective motion of these air "meta-atoms" indeed produces the shear force, which gives rise to the transverse sound with spin-orbit interactions inside this metamaterial. This theory was verified by experiments conducted by Dr Ma Guancong's group in HKBU.

Moreover, the research team discovered that air behaves like an elastic material inside the micropolar metamaterial and thus supports transverse sound with both spin and orbital angular momentum. Using this metamaterial, they demonstrated two types of spin-orbit interactions of sound for the first time. One is the momentum-space spin-orbit interaction which gives rise to negative refraction of the transverse sound, meaning that sound bends in the opposite directions when passing through an interface. Another one is the real-space spin-orbit interaction which generates sound vortices under the excitation of the transverse sound.

The findings demonstrated that airborne sound, or sound in fluids, can be a transverse wave and carry full vector properties such as spin angular momentum the same as light does. It provides new perspectives and functionalities for sound manipulations beyond the conventional scalar degree of freedom.

"This is just a precursor. We anticipate more explorations of the intriguing properties of the transverse sound," Dr Wang said. "In future, by manipulating these extra vector properties, scientists may be able to encode more data into the transverse sound to break the bottleneck of traditional acoustic communication by normal sound waves."

The interaction of spin with orbital angular momentum enables unprecedented sound manipulations via its angular momentum. "The discovery may open an avenue to the development of novel applications in acoustic communications, acoustic sensing and imaging," he added.

The work was supported by the Research Grants Council in Hong Kong and the National Natural Science Foundation of China.


Story Source:

Materials provided by City University of Hong Kong. Note: Content may be edited for style and length.


Journal Reference:

  1. Shubo Wang, Guanqing Zhang, Xulong Wang, Qing Tong, Jensen Li, Guancong Ma. Spin-orbit interactions of transverse sound. Nature Communications, 2021; 12 (1) DOI: 10.1038/s41467-021-26375-9

Cite This Page:

City University of Hong Kong. "Physicists discovered special transverse sound wave." ScienceDaily. ScienceDaily, 7 December 2021. <www.sciencedaily.com/releases/2021/12/211207152541.htm>.
City University of Hong Kong. (2021, December 7). Physicists discovered special transverse sound wave. ScienceDaily. Retrieved November 20, 2024 from www.sciencedaily.com/releases/2021/12/211207152541.htm
City University of Hong Kong. "Physicists discovered special transverse sound wave." ScienceDaily. www.sciencedaily.com/releases/2021/12/211207152541.htm (accessed November 20, 2024).

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