Journal
FRONTIERS IN PHYSICS
Volume 11, Issue -, Pages -Publisher
FRONTIERS MEDIA SA
DOI: 10.3389/fphy.2023.1191108
Keywords
composite structure; coiling-up cavity; switchable projection; coherent superposition; artificial structure
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This study proposes a coding composite structure composed of a perforated plate and a coiling-up cavity with six interdigital rigid walls to achieve switchable acoustic projection displays. By using forward and backward placements, the configuration can serve as bits '0' and '1' for display. The projected image can be switched from 'Off state' to 'On state' by switching control wave P(c).
Projection display is of relevance for various applications, for example, information communication, encryption and storage. Although numerous optical projection devices have been reported in past years, the realization of switchable acoustic projection display without built-in circuits is a challenge. In this work, we propose a coding composite structure composed of a perforated plate and a coiling-up cavity with six interdigital rigid walls to achieve switchable acoustic projection displays. The configuration can be served as bits '0' and '1' by using forward and backward placements, respectively. The required projection can be displayed as long as the expected image regions are filled with bit '1' and other regions are filled with bit '0'. By switching control wave P ( c ), the projected image is able to be switched from 'Off state' to 'On state' accordingly. The underlying physical mechanism is the different scattering responses between two coding bits induced by coherent superposition. Our design provides an effective solution for the construction of acoustic projection displays with switchable feature, which may have potential applications in information encryption and storage.
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