Control of Reflected Waves with Acoustic Metasurfaces for Hypersonic Boundary-Layer Stabilization

Rui Zhao; Ying Dong; Xinxin Zhang; Chihyung Wen; Tiehan Long; Wu Yuan

doi:10.2514/1.J060282

Control of Reflected Waves with Acoustic Metasurfaces for Hypersonic Boundary-Layer Stabilization

Rui Zhao^*
, Ying Dong
, Xinxin Zhang
, Chihyung Wen^*
, Tiehan Long
, Wu Yuan

^*Corresponding author for this work

Beijing Institute of Technology
Hong Kong Polytechnic University
Chinese Academy of Sciences

Research output: Contribution to journal › Article › peer-review

27 Scopus citations

Abstract

Stabilization of the Mack second mode is of great significance to control hypersonic boundary-layer transitions. Based on the generalized Snell’s law, this work proposes a reflection-controlled metasurface that can restrain the Mack second mode instability by controlling the reflection directions of disturbance waves and consequently stabilize hypersonic boundary-layer flow. The metasurface is periodically corrugated with subwavelength groove groups: each of which is composed of several grooves with different depths. The direct numerical simulation results of a Mach 6 flat-plate boundary layer indicate that the reflection-controlled metasurfaces divide the “two-cell” structure of the Mack second mode into several small parts, and that largely inhibits the growth of the Mack second mode.

Original language	English
Pages (from-to)	1893-1898
Number of pages	6
Journal	AIAA Journal
Volume	59
Issue number	6
DOIs	https://doi.org/10.2514/1.J060282
State	Published - Jun 2021
Externally published	Yes

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title = "Control of Reflected Waves with Acoustic Metasurfaces for Hypersonic Boundary-Layer Stabilization",

abstract = "Stabilization of the Mack second mode is of great significance to control hypersonic boundary-layer transitions. Based on the generalized Snell{\textquoteright}s law, this work proposes a reflection-controlled metasurface that can restrain the Mack second mode instability by controlling the reflection directions of disturbance waves and consequently stabilize hypersonic boundary-layer flow. The metasurface is periodically corrugated with subwavelength groove groups: each of which is composed of several grooves with different depths. The direct numerical simulation results of a Mach 6 flat-plate boundary layer indicate that the reflection-controlled metasurfaces divide the “two-cell” structure of the Mack second mode into several small parts, and that largely inhibits the growth of the Mack second mode.",

author = "Rui Zhao and Ying Dong and Xinxin Zhang and Chihyung Wen and Tiehan Long and Wu Yuan",

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T1 - Control of Reflected Waves with Acoustic Metasurfaces for Hypersonic Boundary-Layer Stabilization

AU - Zhao, Rui

AU - Dong, Ying

AU - Zhang, Xinxin

AU - Wen, Chihyung

AU - Long, Tiehan

AU - Yuan, Wu

PY - 2021/6

Y1 - 2021/6

N2 - Stabilization of the Mack second mode is of great significance to control hypersonic boundary-layer transitions. Based on the generalized Snell’s law, this work proposes a reflection-controlled metasurface that can restrain the Mack second mode instability by controlling the reflection directions of disturbance waves and consequently stabilize hypersonic boundary-layer flow. The metasurface is periodically corrugated with subwavelength groove groups: each of which is composed of several grooves with different depths. The direct numerical simulation results of a Mach 6 flat-plate boundary layer indicate that the reflection-controlled metasurfaces divide the “two-cell” structure of the Mack second mode into several small parts, and that largely inhibits the growth of the Mack second mode.

AB - Stabilization of the Mack second mode is of great significance to control hypersonic boundary-layer transitions. Based on the generalized Snell’s law, this work proposes a reflection-controlled metasurface that can restrain the Mack second mode instability by controlling the reflection directions of disturbance waves and consequently stabilize hypersonic boundary-layer flow. The metasurface is periodically corrugated with subwavelength groove groups: each of which is composed of several grooves with different depths. The direct numerical simulation results of a Mach 6 flat-plate boundary layer indicate that the reflection-controlled metasurfaces divide the “two-cell” structure of the Mack second mode into several small parts, and that largely inhibits the growth of the Mack second mode.

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M3 - 文章

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SP - 1893

EP - 1898

JO - AIAA Journal

JF - AIAA Journal

IS - 6

ER -

Control of Reflected Waves with Acoustic Metasurfaces for Hypersonic Boundary-Layer Stabilization

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