Sound Isolation and Giant Linear Nonreciprocity in a Compact Acoustic Circulator
The University of Texas at Austin · Applied Research Laboratories, The University of Texas at Austin
Abstract
Acoustic isolation and nonreciprocal sound transmission are highly desirable in many practical scenarios. They may be realized with nonlinear or magneto-acoustic effects, but only at the price of high power levels and impractically large volumes. In contrast, nonreciprocal electromagnetic propagation is commonly achieved based on the Zeeman effect, or modal splitting in ferromagnetic atoms induced by a magnetic bias. Here, we introduce the acoustic analog of this phenomenon in a subwavelength meta-atom consisting of a resonant ring cavity biased by a circulating fluid. The resulting angular momentum bias splits the ring's azimuthal resonant modes, producing giant acoustic nonreciprocity in a compact device. We…
Citation impact
- FWCI
- 62.33
- Percentile
- 100%
- References
- 30
Authors
5- RFRomain Fleury
The University of Texas at Austin
- DLDimitrios L. Sounas
The University of Texas at Austin
- CFCaleb F. Sieck
Applied Research Laboratories, The University of Texas at Austin, The University of Texas at Austin
- MRMichael R. Haberman
Applied Research Laboratories, The University of Texas at Austin, The University of Texas at Austin
- AAAndrea AlùCorresponding
The University of Texas at Austin
Topics & keywords
- Circulator
- Acoustics
- Physics
- Acoustic wave
- Zeeman effect
- Optics
- Magnetic field