A transmitted ultrasonic field fitting method determines crystallographic texture for arbitrary thicknesses and general anisotropy using Hashin-Shtrikman homogenization and GPU optimization, with validation against diffraction measurements.
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Forward-operator geometry analysis shows identifiability limits in ultrasonic models arise from parameter coupling, anisotropic sensitivity, and stochastic variability, with combined observables improving conditioning.
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Ultrasonic determination of crystallographic texture by transmitted field fitting regardless of medium dispersivity
A transmitted ultrasonic field fitting method determines crystallographic texture for arbitrary thicknesses and general anisotropy using Hashin-Shtrikman homogenization and GPU optimization, with validation against diffraction measurements.
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Identifiability Limits in Ultrasonic Microstructure Characterisation: A Canonical and Stochastic Framework
Forward-operator geometry analysis shows identifiability limits in ultrasonic models arise from parameter coupling, anisotropic sensitivity, and stochastic variability, with combined observables improving conditioning.