ProfessorsProfessors of Georgia Institute of TechnologyJulien Meaud

Julien Meaud

Georgia Institute of Technology

H-index: 17

North America-United States

About Julien Meaud

Julien Meaud, With an exceptional h-index of 17 and a recent h-index of 14 (since 2020), a distinguished researcher at Georgia Institute of Technology, specializes in the field of mechanics, acoustics, cochlear mechanics, nonlinear dynamics, architected materials.

His recent articles reflect a diverse array of research interests and contributions to the field:

Modeling the fine structure of ear canal pressure and cochlear microphonics in response to a pure tone

Nonlinear effects basal to the best place manifest in the reticular lamina’s response due to its low impedance relative to the basilar membrane

Numerical and experimental study of impact dynamics of bistable buckled beams

Investigating the effect of change in cochlear micromechanics and activity levels on stimulus frequency otoacoustic emissions phase-gradient delay

MoH 2024-test

Broad nonlinearity in reticular lamina vibrations requires compliant organ of Corti structures

Nonlinear dynamics of spontaneous otoacoustic emissions in the presence of internal noise in models of the inner ear

The acoustics program at Georgia Tech

Julien Meaud Information

University	Georgia Institute of Technology
Position	Associate Professor of Mechanical Engineering
Citations(all)	1266
Citations(since 2020)	737
Cited By	885
hIndex(all)	17
hIndex(since 2020)	14
i10Index(all)	20
i10Index(since 2020)	18
Email	Access Email
University Profile Page	Georgia Institute of Technology
Google Scholar	View Google Scholar Profile

Julien Meaud Skills & Research Interests

mechanics

acoustics

cochlear mechanics

nonlinear dynamics

architected materials

Top articles of Julien Meaud

Title	Journal	Author(s)	Publication Date
Modeling the fine structure of ear canal pressure and cochlear microphonics in response to a pure tone	AIP Conference Proceedings	Julien Meaud Haiqi Wen George Samaras Yiwei Xia	2024/2/27
Nonlinear effects basal to the best place manifest in the reticular lamina’s response due to its low impedance relative to the basilar membrane	AIP Conference Proceedings	George Samaras Haiqi Wen Julien Meaud	2024/2/27
Numerical and experimental study of impact dynamics of bistable buckled beams	Journal of Sound and Vibration	Michael Rouleau James Keller Jason Lee Steven Craig Chengzhi Shi ...	2024/4/28
Investigating the effect of change in cochlear micromechanics and activity levels on stimulus frequency otoacoustic emissions phase-gradient delay	AIP Conference Proceedings	Yiwei Xia George Samaras Julien Meaud	2024/2/27
MoH 2024-test		Karolina Charaziak Karl Grosh Sarah Verhulst Julien Meaud Karl OSF Grosh	2023/5
Broad nonlinearity in reticular lamina vibrations requires compliant organ of Corti structures	Biophysical Journal	George Samaras Haiqi Wen Julien Meaud	2023/3/7
Nonlinear dynamics of spontaneous otoacoustic emissions in the presence of internal noise in models of the inner ear	The Journal of the Acoustical Society of America	George Samaras Dani E Agramonte Julien Meaud	2023/3/1
The acoustics program at Georgia Tech	Acoustical Society of America Journal	Karim G Sabra Chengzhi Shi Costas Arvanitis Julien Meaud F Levent Degertekin ...	2022/10
Link between stimulus otoacoustic emissions fine structure peaks and standing wave resonances in a cochlear model	The Journal of the Acoustical Society of America	Haiqi Wen Julien Meaud	2022/3/1
Nonlinear dynamics of a bistable system impacting a sinusoidally vibrating shaker	Nonlinear Dynamics	Michael Rouleau Steven Craig Yiwei Xia Roy Shieh Major L Robinson ...	2022/12
Examining influence of primary frequency ratio on distortion product otoacoustic emissions generation using an alternating frequency/time domain cochlear model	The Journal of the Acoustical Society of America	Haiqi Wen Julien Meaud Wei Dong Sebastiaan Meenderink	2021/10/1
Intracochlear distortion products are broadly generated by outer hair cells but their contributions to otoacoustic emissions are spatially restricted	Scientific Reports	Thomas Bowling Haiqi Wen Sebastiaan WF Meenderink Wei Dong Julien Meaud	2021/7/1
Nonlinear wave propagation and dynamic reconfiguration in two-dimensional lattices with bistable elements	Journal of Sound and Vibration	Julien Meaud	2020/5/12