ProfessorsProfessors of Brigham Young UniversityScott Thomson

Scott Thomson

Brigham Young University

H-index: 26

North America-United States

About Scott Thomson

Scott Thomson, With an exceptional h-index of 26 and a recent h-index of 18 (since 2020), a distinguished researcher at Brigham Young University, specializes in the field of Mechanical engineering, voice production, voice, laryngeal biomechanics, laryngology.

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

Noise reduction pipes, vacuum-assisted toilet systems including the same, and methods of using the same

Effect of Subglottic Stenosis on Expiratory Sound Using Direct Noise Calculation

Vacuum-assisted toilet systems and methods of using the same

Systems and methods for printing a three-dimensional object

Aerodynamic-induced Effects of Artificial Subglottic Stenosis on Vocal Fold Model Phonatory Response

Three-Dimensional Printing of Ultrasoft Silicone with a Functional Stiffness Gradient

Expiratory noise due to subglottic stenosis using direct noise calculation

Optimization of synthetic vocal fold models for glottal closure

Scott Thomson Information

University	Brigham Young University
Position	Department of Mechanical Engineering
Citations(all)	2117
Citations(since 2020)	947
Cited By	1476
hIndex(all)	26
hIndex(since 2020)	18
i10Index(all)	42
i10Index(since 2020)	32
Email	Access Email
University Profile Page	Brigham Young University
Google Scholar	View Google Scholar Profile

Scott Thomson Skills & Research Interests

Mechanical engineering

voice production

voice

laryngeal biomechanics

laryngology

Top articles of Scott Thomson

Title	Journal	Author(s)	Publication Date
Noise reduction pipes, vacuum-assisted toilet systems including the same, and methods of using the same			2023/1/24
Effect of Subglottic Stenosis on Expiratory Sound Using Direct Noise Calculation	Applied Sciences	Biao Geng Qian Xue Scott Thomson Xudong Zheng	2023/12/12
Vacuum-assisted toilet systems and methods of using the same			2023/7/18
Systems and methods for printing a three-dimensional object			2022/6/23
Aerodynamic-induced Effects of Artificial Subglottic Stenosis on Vocal Fold Model Phonatory Response	Journal of Voice	Benjamin A Hilton Scott L Thomson	2022/12/8
Three-Dimensional Printing of Ultrasoft Silicone with a Functional Stiffness Gradient	3D Printing and Additive Manufacturing	Clayton A Young MeiLi O'Bannon Scott L Thomson	2022/11/23
Expiratory noise due to subglottic stenosis using direct noise calculation	Bulletin of the American Physical Society	Biao Geng Qian Xue Xudong Zheng Scott Thomson	2022/11/20
Optimization of synthetic vocal fold models for glottal closure	Journal of Engineering and Science in Medical Diagnostics and Therapy	Cassandra J Taylor Scott L Thomson	2022/8/1
3D printing low-stiffness silicone within a curable support matrix	Additive manufacturing	Taylor E Greenwood Serah E Hatch Mark B Colton Scott L Thomson	2021/1/1
3D-printed synthetic vocal fold models	Journal of Voice	Ryan GT Romero Mark B Colton Scott L Thomson	2021/9/1
Embedded 3D printing of multi-layer, self-oscillating vocal fold models	Journal of biomechanics	Taylor E Greenwood Scott L Thomson	2021/5/24
Effect of subglottic stenosis on vocal fold vibration and voice production using fluid–structure–acoustics interaction simulation	Applied Sciences	Dariush Bodaghi Qian Xue Xudong Zheng Scott Thomson	2021/1/29
Effects of vibration on small blood vessel perfusion within the vocal folds	APS Division of Fluid Dynamics Meeting Abstracts	Joseph Seamons Scott Thomson	2021
Graduate acoustics program at Brigham Young University	The Journal of the Acoustical Society of America	Brian E Anderson Tracianne B Neilsen Scott D Sommerfeldt Kent L Gee Jonathan D Blotter ...	2020/10/1
Case study: Noise reduction of a vacuum-assisted toilet	Noise Control Engineering Journal	Michael T Rose B Dagan Pielstick Zach T Jones Scott D Sommerfeldt Kent L Gee ...	2020/7/1