Wesleyan’s Wave-Transport Lab recently received $709,000 in grants to study the movement of waves. The lab is spearheaded by Professors Tsampikos Kottos and Fred Ellis, pictured in the back row.
The Physics Department’s Wave-Transport Lab recently received awards totaling $709,000 to support its ongoing aim to understand and manipulate the movement of waves—sound, mechanical, or electromagnetic—through natural or human-made materials.
The lab received a $340,000 grant from the National Science Foundation’s Division of Civil, Mechanical, and Manufacturing Innovation program titled “Engineering Dynamical Symmetries for Extreme Wave-Matter Interactions in Elastodynamics,” and a $369,000 grant from the Department of Defense’s Office of Naval Research (ONR) titled “Waveform Shaping Techniques for Targeted Electromagnetic Attacks.”
The Wave-Transport Lab was established in 2016 when Fred Ellis, chair and professor of physics, and Tsampikos Kottos, the Lauren B. Dachs Professor of Science and Society and professor of physics, developed arguments for a mechanical system that would detect very small surface cracks, like the micro-cracks an airplane’s exterior collects after many hours of flight.
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Joseph Knee, the Beach Professor of Chemistry and Dean of the Natural Sciences and Mathematics Division, is the author of a new article published in the journal Physical Chemistry Chemical Physics (PCCP). This “Perspectives” article, which was commissioned by the PCCP editorial board and editorial office, is a high-profile look at work by Knee and his collaborators that has been going on for nearly a decade. Perspectives articles are intended to present an authoritative state-of-the-art account of a particular research field.
The research by Knee and his collaborators, which is ongoing, uses experimental and computational methods to explore hydrogen bonding interactions, which are extremely important in the structure of water, various solutions, and in many key biochemical structures and processes.
Knee explains, “The most important aspect of our methodology is making careful experimental measurements of two single molecules forming hydrogen bonds and then modeling these bonds with modern quantum chemical calculations. The calculations allow us to decompose the various forces which contribute to the bond strength and structure. The larger goal is to generalizing this insight to more complex hydrogen bonded systems, particularly hydrogen bonding networks which exist in liquids and biological systems.”
The full article can be read here by those with subscriptions or institutional subscriptions, including those on Wesleyan’s campus.
Professor of Physics Greg Voth, at right, will teach a new course, CIS 170, Introduction to Engineering and Design, as part of Wesleyan’s new Interdisciplinary minor in Integrated Design, Engineering, and Applied Sciences.
Amid rising student interest, Wesleyan has announced a new interdisciplinary minor in Integrated Design, Engineering, and Applied Sciences (IDEAS), beginning in 2017-18. It will be hosted within the College of Integrative Sciences (CIS).
The IDEAS minor will introduce foundational skills in engineering and design, and bring together existing arts, design, and applied science courses to create a more formal structure to guide students interested in these fields.
According to Professor of Physics Francis Starr, a co-proposer of the minor and director of the CIS, “The new minor plays into Wesleyan’s unique capabilities and dovetails with Wesleyan’s commitment to prepare students for the challenges facing society today. Our aim is to provide students with practical design and problem solving skills, coupled with the context to understand the social and cultural implications of their work.” The minor passed the Educational Policy Committee (EPC) in April.
Wesleyan is at the forefront of an emerging approach in academia
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