Fall semester classes begin on Aug. 23, 2021. View the full academic calendar for the fall semester here.

As a prelude to the Fall Semester, Associate Provost Kathi Kern and Dean Mark Kornbluh will discuss the challenges posed by teaching and learning during the COVID-19 pandemic. Faculty and students alike worry about the logistics. How will we maintain a safe and healthy learning environment? How much of instruction will need to be moved online or “flipped”? How does technology enable or restrict us? How do we continue to foster strong student-teacher bonds at a distance? How do we build community in our current environment?

And while these questions are urgent for the particular moment, they also point to a lasting shift in how we go about our work as educators. Even after the pandemic subsides, we will likely find ourselves reflecting on the unexamined, yet sacred elements of what makes a college education. As disruptive as the pandemic has been, it has also ignited a climate of innovation. We are led to think anew about the journeys that our students take, how our research and disciplines best serve a diverse community of learners, how the wicked problems of the world defy institutional silos, and how we can best support individuals while also strengthening communities. Our lessons learned and enduring challenges from the past few months afford us a unique opportunity to anticipate these emergent paradigms for teaching and learning.

Pandemic and the Professor from UK College of Arts & Sciences on Vimeo.

For more information, visit: https://www.uky.edu/commencement/springceremonies 

This one-week, one-credit compressed course focuses on mapping variation through the use of geospatial tools like GIS.  The course, offered as A&S 500-003, will take place from November 9-13 from 5-8pm each day in the Oliver Raymond Building, room C226.  As a 500-level course, it is open to both graduate and undergraduate students.

Dr. Montgomery's research investigates ways of integrating techniques used in geography with those traditionally used in dialectology.  His specific focus in the use of GIS technologies is innovative in the field of linguistics, and his presence on UK's campus will expose the community here to some of the most recent endeavors in these kinds of digital humanities research methodologies.  Despite a focus in linguistic variation, this class will present methods that could be applied to many of the social sciences and humanities, wherein the questions deal with societal patterns, variations in those patterns, and the geospatial presentation and analysis of data related to those patterns.  If you have any questions about this course, please contact Dr. Jennifer Cramer (jennifer.cramer@uky.edu).

***THIS EVENT IS CANCELLED DUE TO DANGEROUS WEATHER CONDITIONS. WE WILL RESCHEDULE AND POST UPDATES WHEN PLANS ARE FINALIZED*** The University of Kentucky Graduate Appalachian Research Community presents the 6th Annual UK Appalachian Research Community Symposium and Arts Showcase on Saturday, March 7, 2015 from 9 a.m. to 5 p.m. at the William T. Young Library.  This year's keynote speaker is Lisa Conley, Ph.D. Her research interests focus on foodways, environmental sustainability, and local food politics in motivating the self-provisioning practices of people in rural and urban Kentucky.  Please, find more information about registration or proposal submition here: https://appalachiancenter.as.uky.edu/annual-research-symposium.  The deadline to submit abstracts is February 15, 2015.  Registration for presenters and non-presenters is free.  Undergraduate and Graduate students are welcome to register.

The National Conference on Undergraduate Research is an annual student conference dedicated to promoting undergraduate research, scholarship, and creative activity in all fields of study. Unlike meetings of academic professional organizations, this gathering of young scholars welcomes presenters from institutions of higher learning from all corners of the academic curriculum. This annual conference creates a unique environment for the celebration and promotion of undergraduate student achievement, provides models of exemplary research and scholarship, and helps to improve the state of undergraduate education.

Learn more here.

Title:  Sub-Exponential Decay Estimates on Trace Norms of Localized Functions of Schrodinger Operators

Abstract:  In 1973, Combes and Thomas discovered a general technique for showing exponential decay of eigenfunctions. The technique involved proving the exponential decay of the resolvent of the Schrodinger operator localized between two distant regions. Since then, the technique has been applied to several types of Schrodinger operators. Recent work has also shown the Combes–Thomas method works well with trace class and Hilbert–Schmidt type operators. In this talk, we build on those results by applying the Combes–Thomas method in the trace, Hilbert–Schmidt, and other trace-type norms to prove sub-exponential decay estimates on functions of Schrodinger operators localized between two distant regions.

Title:  On the ground state of the magnetic Laplacian in corner domains

Abstract:  I will present recent results about the first eigenvalue of the magnetic Laplacian in general 3D-corner domains with Neumann boundary condition in the semi-classical limit.  The use of singular chains show that the asymptotics of the first eigenvalue is governed by a hierarchy of model problems on the tangent cones of the domain. We provide estimations of the remainder depending on the geometry and the variations of the magnetic field. This is a joint work with V. Bonnaillie-Nol and M. Dauge.

Title: Informatics and Modeling Platform for Stable Isotope-Resolve Metabolomics

Abstract: Recent advances in stable isotope-resolved metabolomics (SIRM) are enabling orders-of-magnitude increase in the number of observable metabolic traits (a metabolic phenotype) for a given organism or community of organisms.  Analytical experiments that take only a few minutes to perform can detect stable isotope-labeled variants of thousands of metabolites.  Thus, unique metabolic phenotypes may be observable for almost all significant biological states, biological processes, and perturbations.  Currently, the major bottleneck is the lack of data analysis that can properly organize and interpret this mountain of phenotypic data as highly insightful biochemical and biological information for a wide range of biological research applications.  To address this limitation, we are developing bioinformatic, biostatistical, and systems biochemical tools, implemented in an integrated data analysis platform, that will directly model metabolic networks as complex inverse problems that are optimized and verified by experimental metabolomics data.  This integrated data analysis platform will enable a broad application of SIRM from the discovery of specific metabolic phenotypes representing biological states of interest to a mechanism-based understanding of a wide range of biological processes with particular metabolic phenotypes.