Browsing by Author "Kelly, Samuel M"
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Item Materials to re-create "Global Dynamics of the Stationary M2 Mode-1 Internal Tide" by Kelly et al.(2020-11-16) Kelly, Samuel M; smkelly@d.umn.edu; Kelly, Samuel, M; University of Minnesota Duluth, Large Lakes ObservatoryIn a recent manuscript, the Coupled-mode Shallow Water model (CSW) was run to examine global internal tide dynamics. This manuscript examines the sensitivity of internal-tide generation, propagation, and dissipation to model resolution, dissipation parameterizations, density stratification, surface tides, and bathymetry. This submission includes the configuration files for CSW, as well as the subset of data and Matlab scripts needed to recreate the figures and tables in the manuscript.Item Materials to re-create Coastal trapped waves: normal modes, evolution equations, and topographic generation(2022-03-14) Kelly, Samuel M; smkelly@d.umn.edu; Kelly, Samuel M; University of Minnesota Duluth, Large Lakes ObservatoryA recent manuscript examined coastal trapped waves (CTWs) using theory and the MIT general circulation model (MITgcm). The manuscript developed a Matlab code to generate orthogonal CTWs and then used the code to analyze MITgcm simulations of CTW generation. This submission includes the code to generate orthogonal CTWs (CTW_modes.m), the configuration and post-processing files for the MITgcm, and Matlab scripts that recreate the figures in the manuscript.Item Materials to re-create Predicting Surface Oscillations in Lake Superior from Normal Mode Dynamics(2024-01-16) Kelly, Samuel M; smkelly@d.umn.edu; Kelly, Samuel M; University of Minnesota Duluth, Large Lakes ObservatoryA recent manuscript examined surface oscillations in Lake Superior using observations and the MIT general circulation model (MITgcm). This submission includes the functions to analyze the observations, the configuration and post-processing files for the MITgcm, and Matlab scripts that recreate the figures in the manuscript.Item Shipboard turbulence and temperature profiles from the Near Inertial Coastal Experiment (NICE), 2017-2019(2023-01-27) Kelly, Samuel M; smkelly@d.umn.edu; Kelly, Samuel M; University of Minnesota Duluth, Large Lakes ObservatoryThe Near Inertial Coastal Experiment (NICE) observed the physical properties of western Lake Superior from 2016-2020. The aim was to observe near-inertial internal waves and vertical mixing due to turbulence. Using the R/V Blue Heron as an observing platform during the summers of 2017, 2018, and 2019, a Rockland Scientific VMP-250 recorded 5,813 profiles of temperature, salinity, fluorescence, turbidity, and the turbulent kinetic energy dissipation rate, and an RBR fastDuet recorded 3,974 profiles of temperature. These profiles are archived here. Additional underway data from the R/V Blue Heron is available at the Rolling deck 2 Repository (R2R; https://www.rvdata.us/search/vessel/Blue%20Heron). Moored data from the NICE experiment was documented by Austin and Elmer (2022).