Shaw, Steven
Steven Shaw
Professor | College of Engineering and Science - Mechanical and Civil Engineering
Contact Information
Personal Overview
My research and teaching interests are in the general area of dynamics and vibrations of mechanical systems with a focus on nonlinear and noisy behavior. I am particularly interested in the fundamental physics, modeling, and design of resonant micro/nano-electro-mechanical systems, their applications in time-keeping and sensing, and in the dynamics and design of centrifugal pendulum vibration absorbers for rotating machinery, with automotive applications.
Educational Background
A.B. Physics, University of Michigan, Flint (1978)
M.S.E. Applied Mechanics, University of Michigan, Ann Arbor (1979)
Ph.D. Theoretical and Applied Mechanics, Cornell University (1983)
Professional Experience
2022-present, Professor, Department of Mechanical and Civil Engineering, 澳门100%最准一肖一码, Melbourne, FL
2016-2022, Harris Professor, Department of Mechanical and Civil Engineering, 澳门100%最准一肖一码, Melbourne, FL
University Distinguished Professor Emeritus (2016-present), University Distinguished Professor (2011-2016), Professor, (1994-2011), Associate Professor (1987-1991), Acting Associate Chairperson (1990), Assistant Professor (1984-1987); Department of Mechanical Engineering, Michigan State University, East Lansing, MI
2014-present, Adjunct Professor of Physics and Astronomy, Michigan State University
Professor Shaw has also held regular or visiting appointments at the University of Michigan, Oakland University, McGill University, University of California-Santa Barbara, California Institute of Technology, University of Minnesota, and Cornell University.
Current Courses
MEE 4014
MEE 4024
Selected Publications
Journal publications and patents over the most recent five years:
V. Pilipchuk, S. W. Shaw, and N. Chalhoub, 鈥淐ontrol of dumbbell satellite orbits using moving mass actuators,鈥 Nonlinear Dynamics, available online: 2022
P. Polunin and S. W. Shaw, 鈥淢aximizing the rate sensitivity of resonating gyroscopes using nonlinear shape optimization,鈥 invited paper for a special issue, Journal of Micromechanics and Microengineering 32(6), 064003, 2022
J. Lee, S. W. Shaw, P. X.-L. Feng, 鈥淕iant parametric amplification and spectral narrowing in single- and few-layerMoS2 nanomechanical resonators,鈥 Applied Physics Reviews 9(1), DOI: 10.1063/5.0045106, 2022
J. Mayet, M. Acar, and S. W. Shaw, 鈥淓ffective and robust rocking centrifugal pendulum vibration absorbers,鈥 Journal of Sound and Vibration 527, p.116821, doi.org/10.1016/j.jsv.2022.116821, 2022
D. Li, P. Polunin, and S. W. Shaw, 鈥淐omputational Modeling of Nonlinear Dynamics and Its Utility in MEMS Gyroscopes,鈥 invited paper for the inaugural issue, Journal of Structural Dynamics 1, 217-235, doi:10.25518/2684-6500.96, 2022
J. M. L. Miller, G. D. Vukasin, Z. Zhang, H.-K. Kwon, A. Majumdar, T. W. Kenny, and S. W. Shaw, 鈥淓ffects of remote boundary conditions on clamping loss in micromechanical resonators,鈥 Journal of Microelectromechanical Systems31(2), DOI: 10.1109/JMEMS.2021.3136885, 2022
M. Defoort, S. Hentz, S. W. Shaw, and O. Shoshani, 鈥淎mplitude stabilization in a synchronized nonlinear nanomechanical oscillator,鈥 Communications Physics 5(1), p.1-7, , 2022
D. Tchokogoue 虂, M. Mu, B. Feeny, B. Geist, S. Shaw, 鈥淭he effects of gravity on the response of centrifugal pendulum vibration absorbers,鈥 Journal of Vibration and Acoustics 143(6): 061011, paper VIB-20-1497, , 2021
O. Shoshani and S. W. Shaw, 鈥淩esonant modal interactions in micro/nano-mechanical structures,鈥 Nonlinear Dynamics (feature article) 104,&苍产蝉辫;1801鈥1828, , 2021
N. Miller, S. W. Shaw, and M. Dykman, 鈥淪uppressing frequency fluctuations in self-sustained vibrations in underdamped nonlinear resonators,鈥 Physical Review Applied 15 (1) 014024, , 2021
D. Li and S. W. Shaw, 鈥淭he effects of nonlinear damping on degenerate parametric amplification,鈥 Nonlinear Dynamics102, 2433鈥2452, , 2020
J. M.L. Miller, D. D. Shin, H.-K. Kwon, S. W. Shaw, and T. W. Kenny, 鈥淪pectral narrowing of parametrically pumped thermomechanical noise,鈥 Applied Physics Letters 117 (3) 033504 , 2020
O. Shoshani, S. W. Shaw, and M. I. Dykman, 鈥淭uning linear and nonlinear characteristics of a N/MEMS resonator via nonlinear interaction with a secondary resonator,鈥 Nonlinear Dynamics 99, 433鈥443 https://doi.org/10.1007/s11071-019-05194-0,2020
D. Czaplewski, D. L贸pez, S. Strachan, O. Shoshani, and S. W. Shaw, 鈥淏ifurcation diagram and dynamic response of a MEMS resonator with a 1:3 internal resonance,鈥 Applied Physics Letters 114, 254104 (also featured in AIP Scilights), 2019
J. M. L. Miller, D. D. Shin, H.-K. Kwon, S. W. Shaw, and T. W. Kenny, 鈥淧hase control of self-excited parametric resonators,鈥 Physical Review Applied 12 044053, 2019
O. Shoshani, S. W. Shaw, and M. I. Dykman, 鈥淭uning linear and nonlinear characteristics of a N/MEMS resonator via nonlinear interaction with a bath resonator,鈥 Nonlinear Dynamics, https://doi.org/10.1007/s11071-019-05194-0, 2019
D. Czaplewski, C. Chen, D. L贸pez, O. Shoshani, M. Eriksson, S. Strachan, and S. Shaw, 鈥淏ifurcation Generated Mechanical Frequency Comb,鈥 Physical Review Letters 121 244302, 2018
C. Chen, D. H. Zanette, D. Czaplewski, S. W. Shaw, and D. L贸pez, 鈥淒irect observation of coherent energy transfer in nonlinear micro-mechanical oscillators,鈥 Nature Communications 8:15523, 2017
C. Cassella, S. Strachan, S. W. Shaw, and G. Piazza, 鈥淧hase Noise Suppression through Parametric Filtering,鈥 Applied Physics Letters 110(6), 063503, 2017
L. L. Li, P. M. Polunin, S. Dou, O. Shoshani, B. S. Strachan, J. S. Jensen, S. W. Shaw, and K. L. Turner, 鈥淭ailoring the Nonlinear Response of MEMS Resonators Using Shape Optimization,鈥 Applied Physics Letters 110(8), 081902, 2017
P. Polunin and S. W. Shaw, 鈥淪elf-Induced Parametric Amplification in Ring Resonating Gyroscopes,鈥 International Journal of Non-Linear Mechanics 94, 300-308, 2017
Recognition & Awards
Keynote Lecture (virtual), NMC2022 Nanomechanical Sensing, 2022
Keynote Lecture (virtual), ASME IDETC Conference; MSNDC track, 2020
Plenary Lecture, ASME IMECE Conference; Dynamics, Vibration, and Controls Track, 2019
T. K. Caughey Award, ASME Applied Mechanics Division, 2019
Opening Plenary Lecture, First International Nonlinear Dynamics Conference (NODYCON2019), Rome, Italy, 2019
N. O. Myklestad Award, ASME Design Division, 2013
University Distinguished Professor, Michigan State University, 2011-2016
University Distinguished Faculty Award, Michigan State University, 2008
Arch T. Colwell Merit Award, SAE, 1997
Fellow, ASME, elected 1995
Westinghouse Distinguished Lecturer, University of Michigan, 1990
Henry Ford Customer Satisfaction Award, Ford Motor Company, 1986
Henry Hess Early Career Publication Award, ASME, 1986
Research
Fundamental physics, modeling, and design of resonant micro/nano-electromechanical systems for sensing and signal processing applications.
Dynamics and design of centrifugal pendulum vibration absorbers for rotating machinery, with applications to automotive powertrain components.