Open AccessEffect of an Added Mass on the Vibration Characteristics for Raster Scanning of a Cantilevered Optical Fiber
Author(s) -
Kelli C. Kiekens,
David Vega,
Harrison T. Thurgood,
Dominique Galvez,
Davis J. McGregor,
Travis W. Sawyer,
Jennifer K. Barton
Publication year - 2021
Publication title -
journal of engineering and science in medical diagnostics and therapy
Language(s) - English
Resource type - Journals
eISSN - 2572-7966
pISSN - 2572-7958
DOI - 10.1115/1.4050691
Subject(s) - cantilever , raster scan , raster graphics , vibration , optical fiber , miniaturization , fiber , materials science , acoustics , actuator , added mass , optics , physics , computer science , engineering , nanotechnology , electrical engineering , composite material , artificial intelligence
Piezoelectric tube actuators with cantilevered optical fibers have enabled the miniaturization of scanning image acquisition techniques for endoscopic implementation. To achieve raster scanning for such a miniaturized system, the first resonant frequency should be of the order of 10 s of Hz. We explore adding a mass at an intermediate location along the length of the fiber to alter the resonant frequencies of the system. We provide a mathematical model to predict resonant frequencies for a cantilevered beam with an intermediate mass. The theoretical and measured data match well for various fiber lengths, mass sizes, and mass attachment locations along the fiber.
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