The Catholic University of America

John A. Judge, Ph.D.

Dean of Engineering

Associate Professor of Mechanical Engineering
202-319-5127 phone
202-319-5173 fax



B.S., Mechanical & Aerospace Engineering, Cornell University, 1996

M.S.E., Mechanical Engineering, The University of Michigan, 1998

Ph.D., Mechanical Engineering, The University of Michigan, 2002

Biography in Brief

John Judge’s research interests are in the area of vibration and dynamics of complex structures, including vibration localization in near-periodic structures, resonant micro- and nano-mechanical systems (MEMS/NEMS), nonlinear dynamics, laser vibrometry and experimental characterization of systems using vibration and acoustics, and seismic/acoustic detection of landmines and improvised explosives.  Prior to joining CUA, he held a National Academy of Sciences Research Associateship at the Naval Research Laboratory in Washington, D.C.

Representative Publications

J. Vignola, A. Glean, J. Judge, and T. Ryan, "Optimal apparent damping as a function of the bandwidth of an array of vibration absorbers," Journal of the Acoustical Society of America, 134(2): 1067-1070 (2013).

C.Q. Judge and J.A. Judge, "Measurement of hydrodynamic coefficients on a planing hull using forced roll oscillations," Journal of Ship Research, 57(2): 75-83 (2013).

T. Ryan, P. O’Malley, A. Glean, J. Vignola, and J. Judge, “Conformal scanning laser Doppler vibrometer measurement of tenor steelpan response to impulse excitation,” Journal of the Acoustical Society of America, 132(5): 3494-3501 (2012).

T. J. Ryan, J. A. Judge, J. F. Vignola, and A. A. Glean, “Noise sensitivity of a mass detection method using vibration modes of coupled microcantilever arrays,” Applied Physics Letters, 101(4): 043104 (2012).

J. F. Vignola, J. A. Judge, C. Good, S. Bishop, P. Gugino and M. Soumekh “Synthetic aperture imaging of surface laid targets by sound” Sensing and Imaging, 13(2): 55-65 (2012).

P. O'Malley, T. Woods, J. Judge and J. Vignola, “Five-Axis Scanning Laser Vibrometry for Three Dimensional Measurements of Non-Planar Surfaces,” Measurement Science and Technology, 20 (11): 115901 (2009).

J. F. Vignola, J. A. Judge, and A. J. Kurdila, “Shaping of a system’s frequency response using an array of subordinate oscillators,” Journal of the Acoustical Society of America, 126(1) : 129-139 (2009).

J. A. Judge, C. Pierre, and S. L. Ceccio, “Experimental Mistuning Identification in Bladed Disks using a Component-Mode-Based Reduced-Order Model,” AIAA Journal, 47(5): 1277 (2009).

J. F. Vignola, J. A. Judge, “Architectural Considerations of Micro- and Nano- Resonators for Mass Detection in the Presence of a Fluid,” Journal of Applied Physics, 104(12): 124305 (2008).

J. A. Judge, J. F. Vignola, and J. Jarzynski, “Dissipation From Microscale and Nanoscale Beam Resonators Into a Surrounding Fluid,” Applied Physics Letters, 92(12) : 12402 (2008).

J. A. Judge, D. M. Photiadis, J. F. Vignola, B. H. Houston, and J. Jarzynski, “Attachment Loss of Micromechanical and Nanomechanical Resonators in the Limits of Thick and Thin Support Structures,” Journal of Applied Physics, 101(1): 013521 (2007).

J. Judge, B. Houston, D. Photiadis, and P. Herdic, “Effects of Disorder in One and Two Dimensional Micromechanical Resonator Arrays for Filtering,” Journal of Sound and Vibration, 290(3-5): 1119-1140 (2006).

J. F. Vignola, J. A. Judge, J. Jarzynski, M. Zalalutdinov, B. H. Houston, and J. W. Baldwin, “Effect of Viscous Loss on Mechanical Resonators Designed for Mass Detection,” Applied Physics Letters, 88 : 041921 (2006).