Abstract
Lasing is a well-established field in optics with several applications. Yet, having lasing or huge amplification in other wave systems remains an elusive goal. Here, we utilize the concept of coherent perfect absorber-laser to realize an acoustic analog of laser with a proven amplification of more than 10 4 in terms of the scattered acoustic signal at a frequency of a few kHz. The obtained acoustic laser (or the coherent perfect absorber-laser) is shown to possess extremely high sensitivity and figure of merit with regard to ultra-small variations of the pressure (density and compressibility) and suggests its evident potential to build future acoustic pressure devices such as precise sensors.
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CITATION STYLE
Farhat, M., Ahmad, W. W., Khelif, A., Salama, K. N., & Wu, Y. (2021). Enhanced acoustic pressure sensors based on coherent perfect absorber-laser effect. Journal of Applied Physics, 129(10). https://doi.org/10.1063/5.0041771
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