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HIGH-SPEED SHAPE AND DISPLACEMENT MEASUREMENTS BY HOLOGRAPHY AND APPLICATIONS IN MIDDLE-EAR RESEARCH
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Development of digital holographic vibrometry methods for determination of mechanical properties of bioengineered tissues
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Opto-mechanical Characterization Methods to Understand Physical and Mechanical Properties of Bioengineered Tissue
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Rapid prototyping of fiber-optic based micro-force sensors by two-photon polymerization
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Multifunctional Testing Artifacts for Evaluation of 3D Printed Components by Fused Deposition Modeling
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Unsteady-State Pressure and Flow Characteristics of the Human Nose: Pre- and Post-Nasal Turbinectomy
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A Feasibility Study on Using Infrared- transmitting Fiber-optics for Thermal Imaging
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Development of high-speed digital holographic shape and displacement measurement methods for middle-ear mechanics in-vivo
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Development of an Infrared Direct Viewer Based on a MEMS Focal Plane Array
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Full-field vibrometry by high-speed digital holography for middle-ear mechanics
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