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15 results on '"Lefever, Joel A."'

1. Accurate Vertical Nanoelectromechanical Measurements

Author

Proksch, Roger, Wagner, Ryan, and Lefever, Joel

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

Accurate measurements of the nanoscale electromechanical coupling in materials, including piezo and ferroelectrics, twisted 2D layers, and biological systems is of both fundamental scientific and applied importance. Piezoresponse Force Microscopy (PFM) is capable of detecting strains in these materials, down to the picometer range. Following the emergence of weaker materials, the smaller signals associated with them have revealed various crosstalk challenges that have limited the accuracy of measurements. Previous work demonstrated that the use of an interferometric displacement sensor (IDS) positioned appropriately above the tip of the cantilever (x/L~1), where x is the spot position and L is the cantilever length, has enabled sensitive and artifact-free electromechanical measurements. A similar approach has been employed in removing unwanted electrostatic and in-plane response contributions for the optical beam deflection (OBD) measurement technique commonly used in most atomic force microscopes. In the present study, extensive automated sub-resonance spot position dependent PFM measurements were conducted on periodically poled lithium niobate (PPLN). In this work, both IDS and OBD responses were measured simultaneously, allowing direct comparisons of the two approaches. The IDS showed a blind spot at x/L~1, as expected. However, for OBD measurements, the blind spot's location exhibited wider variation, ranging from 0.15

Published
2023

8. Atomic Force Microscopy-based Investigation of Plastic Deformation Mechanisms in Disordered Nanoparticle Packings

Author

Lefever, Joel Allen and Lefever, Joel Allen

Abstract

Understanding the plastic deformation mechanisms of disordered materials is a longstanding and complex problem in condensed matter physics and materials science. In particular, the elementary plastic rearrangement in a disordered material is believed to be the shear transformation zone, a localized cooperative motion of a handful of constituents. Although observed in mesoscale systems, the shear transformation zone has never been identified in an experiment at the nanoscale. In the present work, atomic force microscopy is used to probe the mechanical response of thin films of disordered nanoparticle packings that have been deposited by spin-coating and layer-by-layer deposition. Results demonstrate that these materials possess strong heterogeneity in their mechanical properties, which has also been observed in other materials including metallic glass. Topography imaging provides nanometer-level resolution, which allows rearrangements to be observed directly. These are the first rearrangements observed in a three-dimensional disordered material at the nanoscale. By changing the relative humidity in the atomic force microscope chamber, the size of the condensed capillary is controlled. It is found that increasing the humidity causes the nanoparticle film to transition from a strong, brittle state under ambient conditions to a more ductile state at relative humidity above 90%. At saturation, a nearly viscous state is observed. Disordered nanoparticle packings exhibit rearrangement events featuring avalanche scaling, which has previously been witnessed in numerous other materials including metallic glass and rocks. This is the first time that avalanche scaling has been observed in nanoscale granular materials. The number of rearrangement events is found to increase at high ambient humidity, but the shape of the distribution remains consistent regardless of the environmental conditions. This suggests that avalanche scaling is independent of the strength of particle inter

Published
2018

15. Digging In and Finding Giftedness: An Autobiographical Case Study.

Author

Lefever, Joel

Subjects
PSYCHOLOGY of learning, EDUCATION of gifted children, EDUCATIONAL tests & measurements, CHILD psychology methodology
Abstract

Hidden giftedness is a very real phenomenon and intensely frustrating for those whose abilities aren't measured in traditional ways, or who have learning challenges. In this article, the author describes his developmental and educational difficulties, as well as his discovery, at age 41, that his performance IQ measures in the gifted range. Searching for explanations for his experience led him to research developmental disorders and giftedness, and to undergo educational and psychological testing, the results of which left as many questions as answers. The article closes with the author's suggestions for evaluating twice-exceptional individuals and areas of future research. [ABSTRACT FROM AUTHOR]

Published
2010

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