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Turbulence Transitions in Kelvin–Helmholtz Instability "Tube" and "Knot" Dynamics: Vorticity, Helicity, and Twist Waves.
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- Atmosphere, 2023, v. 14, n. 12, p. 1770, doi. 10.3390/atmos14121770
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- Article
Modeling Kelvin Helmholtz Instability Tube and Knot Dynamics and Their Impact on Mixing in the Lower Thermosphere.
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- Journal of Geophysical Research. Atmospheres, 2023, v. 128, n. 19, p. 1, doi. 10.1029/2023JD039249
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Kelvin-Helmholtz Instability "Tube" and "Knot" Dynamics. Part I: Expanding Observational Evidence of Occurrence and Environmental Influences.
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- Journal of the Atmospheric Sciences, 2023, v. 80, n. 10, p. 2419, doi. 10.1175/JAS-D-22-0189.1
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Kelvin-Helmholtz Instability "Tube" and "Knot" Dynamics. Part II: KHI T&K Dynamics in a Multiscale Gravity Wave Direct Numerical Simulation.
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- Journal of the Atmospheric Sciences, 2023, v. 80, n. 10, p. 2439, doi. 10.1175/JAS-D-22-0193.1
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- Article
Accelerating Atmospheric Gravity Wave Simulations Using Machine Learning: Kelvin‐Helmholtz Instability and Mountain Wave Sources Driving Gravity Wave Breaking and Secondary Gravity Wave Generation.
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- Geophysical Research Letters, 2023, v. 50, n. 15, p. 1, doi. 10.1029/2023GL104668
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Gravity Waves Emitted From Kelvin‐Helmholtz Instabilities.
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- Geophysical Research Letters, 2023, v. 50, n. 8, p. 1, doi. 10.1029/2022GL102674
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Airborne coherent wind lidar measurements of the momentum flux profile from orographically induced gravity waves.
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- Atmospheric Measurement Techniques, 2023, v. 16, n. 4, p. 1087, doi. 10.5194/amt-16-1087-2023
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Signatures of gravity wave-induced instabilities in balloon lidar soundings of polar mesospheric clouds.
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- Atmospheric Chemistry & Physics, 2023, v. 23, n. 2, p. 949, doi. 10.5194/acp-23-949-2023
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The polar mesospheric cloud dataset of the Balloon Lidar Experiment (BOLIDE).
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- Earth System Science Data, 2022, v. 14, n. 11, p. 4923, doi. 10.5194/essd-14-4923-2022
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- Article
Multi‐Scale Kelvin‐Helmholtz Instability Dynamics Observed by PMC Turbo on 12 July 2018: 2. DNS Modeling of KHI Dynamics and PMC Responses.
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- Journal of Geophysical Research. Atmospheres, 2022, v. 127, n. 18, p. 1, doi. 10.1029/2021JD035834
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Multi‐Scale Kelvin‐Helmholtz Instability Dynamics Observed by PMC Turbo on 12 July 2018: 1. Secondary Instabilities and Billow Interactions.
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- Journal of Geophysical Research. Atmospheres, 2022, v. 127, n. 18, p. 1, doi. 10.1029/2021JD036232
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- Article
Signatures of gravity wave-induced instabilities in balloon lidar soundings of polar mesospheric clouds.
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- Atmospheric Chemistry & Physics Discussions, 2022, p. 1, doi. 10.5194/acp-2022-572
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- Article
Airborne coherent wind lidar measurements of the momentum flux profile from orographically induced gravity waves.
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- Atmospheric Measurement Techniques Discussions, 2022, p. 1, doi. 10.5194/amt-2022-234
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- Article
Modeling Studies of Gravity Wave Dynamics in Highly Structured Environments: Reflection, Trapping, Instability, Momentum Transport, Secondary Gravity Waves, and Induced Flow Responses.
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- Journal of Geophysical Research. Atmospheres, 2022, v. 127, n. 13, p. 1, doi. 10.1029/2021JD035894
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- Article
Multi-scale dynamics of Kelvin–Helmholtz instabilities. Part 1. Secondary instabilities and the dynamics of tubes and knots.
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- Journal of Fluid Mechanics, 2022, v. 941, p. A1, doi. 10.1017/jfm.2021.1085
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Multi-scale dynamics of Kelvin–Helmholtz instabilities. Part 2. Energy dissipation rates, evolutions and statistics.
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- Journal of Fluid Mechanics, 2022, v. 941, p. A1, doi. 10.1017/jfm.2021.1086
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- Article
The polar mesospheric cloud dataset of the Balloon Lidar Experiment BOLIDE.
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- Earth System Science Data Discussions, 2022, p. 1, doi. 10.5194/essd-2022-158
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- Article
Impacts of Limited Model Resolution on the Representation of Mountain Wave and Secondary Gravity Wave Dynamics in Local and Global Models. 1: Mountain Waves in the Stratosphere and Mesosphere.
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- Journal of Geophysical Research. Atmospheres, 2022, v. 127, n. 9, p. 1, doi. 10.1029/2021JD035990
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Impacts of Limited Model Resolution on the Representation of Mountain Wave and Secondary Wave Dynamics in Local and Global Models: 2. Mountain Wave and Secondary Wave Evolutions in the Thermosphere.
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- Journal of Geophysical Research. Atmospheres, 2022, v. 127, n. 9, p. 1, doi. 10.1029/2021JD036035
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Comparison of MLT Momentum Fluxes Over the Andes at Four Different Latitudinal Sectors Using Multistatic Radar Configurations.
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- Journal of Geophysical Research. Atmospheres, 2022, v. 127, n. 4, p. 1, doi. 10.1029/2021JD035982
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Numerical Simulation of Mountain Waves over the Southern Andes. Part II: Momentum Fluxes and Wave–Mean-Flow Interactions.
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- Journal of the Atmospheric Sciences, 2021, v. 78, n. 10, p. 3069, doi. 10.1175/JAS-D-20-0207.1
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Modeling Responses of Polar Mesospheric Clouds to Gravity Wave and Instability Dynamics and Induced Large‐Scale Motions.
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- Journal of Geophysical Research. Atmospheres, 2021, v. 126, n. 13, p. 1, doi. 10.1029/2021JD034643
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Kelvin‐Helmholtz Billow Interactions and Instabilities in the Mesosphere Over the Andes Lidar Observatory: 2. Modeling and Interpretation.
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- Journal of Geophysical Research. Atmospheres, 2021, v. 126, n. 1, p. 1, doi. 10.1029/2020JD033412
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Numerical Simulation of Mountain Waves over the Southern Andes. Part I: Mountain Wave and Secondary Wave Character, Evolutions, and Breaking.
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- Journal of the Atmospheric Sciences, 2020, v. 77, n. 12, p. 4337, doi. 10.1175/JAS-D-19-0356.1
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The PMC Turbo Balloon Mission to Measure Gravity Waves and Turbulence in Polar Mesospheric Clouds: Camera, Telemetry, and Software Performance.
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- Earth & Space Science, 2020, v. 7, n. 8, p. 1, doi. 10.1029/2020EA001238
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Mesospheric Bore Evolution and Instability Dynamics Observed in PMC Turbo Imaging and Rayleigh Lidar Profiling Over Northeastern Canada on 13 July 2018.
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- Journal of Geophysical Research. Atmospheres, 2020, v. 125, n. 14, p. 1, doi. 10.1029/2019JD032037
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Self‐Acceleration and Instability of Gravity Wave Packets: 2. Two‐Dimensional Packet Propagation, Instability Dynamics, and Transient Flow Responses.
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- Journal of Geophysical Research. Atmospheres, 2020, v. 125, n. 3, p. N.PAG, doi. 10.1029/2019JD030691
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Self‐Acceleration and Instability of Gravity Wave Packets: 3. Three‐Dimensional Packet Propagation, Secondary Gravity Waves, Momentum Transport, and Transient Mean Forcing in Tidal Winds.
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- Journal of Geophysical Research. Atmospheres, 2020, v. 125, n. 3, p. N.PAG, doi. 10.1029/2019JD030692
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Coordinated Observations of 8‐ and 6‐hr Tides in the Mesosphere and Lower Thermosphere by Three Meteor Radars Near 60<sup>°</sup>S Latitude.
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- Geophysical Research Letters, 2020, v. 47, n. 1, p. N.PAG, doi. 10.1029/2019GL086629
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Direct Numerical Simulation Guidance for Thorpe Analysis to Obtain Quantitatively Reliable Turbulence Parameters.
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- Journal of Atmospheric & Oceanic Technology, 2019, v. 36, n. 11, p. 2247, doi. 10.1175/JTECH-D-18-0225.1
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Large‐Amplitude Mountain Waves in the Mesosphere Observed on 21 June 2014 During DEEPWAVE: 1. Wave Development, Scales, Momentum Fluxes, and Environmental Sensitivity.
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- Journal of Geophysical Research. Atmospheres, 2019, v. 124, n. 19, p. 10364, doi. 10.1029/2019JD030932
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Stratospheric Gravity Wave Products from Satellite Infrared Nadir Radiances in the Planning, Execution, and Validation of Aircraft Measurements during DEEPWAVE.
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- Journal of Applied Meteorology & Climatology, 2019, v. 58, n. 9, p. 2049, doi. 10.1175/JAMC-D-19-0015.1
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Large‐Amplitude Mountain Waves in the Mesosphere Observed on 21 June 2014 During DEEPWAVE: 2. Nonlinear Dynamics, Wave Breaking, and Instabilities.
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- Journal of Geophysical Research. Atmospheres, 2019, v. 124, n. 17/18, p. 10006, doi. 10.1029/2019JD030899
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Structure, Variability, and Mean‐Flow Interactions of the January 2015 Quasi‐2‐Day Wave at Middle and High Southern Latitudes.
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- Journal of Geophysical Research. Atmospheres, 2019, v. 124, n. 12, p. 5981, doi. 10.1029/2018JD029728
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- Article
PMC Turbo: Studying Gravity Wave and Instability Dynamics in the Summer Mesosphere Using Polar Mesospheric Cloud Imaging and Profiling From a Stratospheric Balloon.
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- Journal of Geophysical Research. Atmospheres, 2019, v. 124, n. 12, p. 6423, doi. 10.1029/2019JD030298
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- Article
Observations of Reduced Turbulence and Wave Activity in the Arctic Middle Atmosphere Following the January 2015 Sudden Stratospheric Warming.
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- Journal of Geophysical Research. Atmospheres, 2018, v. 123, n. 23, p. 13,259, doi. 10.1029/2018JD028788
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Momentum Flux Spectra of a Mountain Wave Event Over New Zealand.
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- Journal of Geophysical Research. Atmospheres, 2018, v. 123, n. 18, p. 9980, doi. 10.1029/2018JD028319
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- Article
Large‐Amplitude Mountain Waves in the Mesosphere Accompanying Weak Cross‐Mountain Flow During DEEPWAVE Research Flight RF22.
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- Journal of Geophysical Research. Atmospheres, 2018, v. 123, n. 18, p. 9992, doi. 10.1029/2017JD028250
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Fine Structure, Instabilities, and Turbulence in the Lower Atmosphere: High-Resolution In Situ Slant-Path Measurements with the DataHawk UAV and Comparisons with Numerical Modeling.
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- Journal of Atmospheric & Oceanic Technology, 2018, v. 35, n. 3, p. 619, doi. 10.1175/JTECH-D-16-0037.1
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- Article
Gravity Wave Dynamics in a Mesospheric Inversion Layer: 1. Reflection, Trapping, and Instability Dynamics.
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- Journal of Geophysical Research. Atmospheres, 2018, v. 123, n. 2, p. 626, doi. 10.1002/2017JD027440
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Gravity Wave Dynamics in a Mesospheric Inversion Layer: 2. Instabilities, Turbulence, Fluxes, and Mixing.
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- Journal of Geophysical Research. Atmospheres, 2018, v. 123, n. 2, p. 649, doi. 10.1002/2017JD027442
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Mesospheric front observations by the OH airglow imager carried out at Ferraz Station on King George Island, Antarctic Peninsula, in 2011.
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- Annales Geophysicae (ANGEO) (09927689), 2018, v. 36, n. 1, p. 253, doi. 10.5194/angeo-36-253-2018
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Does Strong Tropospheric Forcing Cause Large-Amplitude Mesospheric Gravity Waves? A DEEPWAVE Case Study.
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- Journal of Geophysical Research. Atmospheres, 2017, v. 122, n. 21, p. 11,422, doi. 10.1002/2017JD027371
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Secondary gravity wave generation over New Zealand during the DEEPWAVE campaign.
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- Journal of Geophysical Research. Atmospheres, 2017, v. 122, n. 15, p. 7834, doi. 10.1002/2016JD026079
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Stratospheric Gravity Wave Fluxes and Scales during DEEPWAVE.
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- Journal of the Atmospheric Sciences, 2016, v. 73, n. 7, p. 2851, doi. 10.1175/JAS-D-15-0324.1
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The Deep Propagating Gravity Wave Experiment (DEEPWAVE): An Airborne and Ground-Based Exploration of Gravity Wave Propagation and Effects from Their Sources throughout the Lower and Middle Atmosphere.
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- Bulletin of the American Meteorological Society, 2016, v. 97, n. 3, p. 425, doi. 10.1175/BAMS-D-14-00269.1
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Numerical Modeling of Multiscale Dynamics at a High Reynolds Number: Instabilities, Turbulence, and an Assessment of Ozmidov and Thorpe Scales.
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- Journal of the Atmospheric Sciences, 2016, v. 73, n. 2, p. 555, doi. 10.1175/JAS-D-14-0343.1
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- Article
Influences of source conditions onmountain wave penetration into the stratosphere and mesosphere.
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- Geophysical Research Letters, 2015, v. 42, n. 21, p. 9488, doi. 10.1002/2015GL066465
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Momentum flux estimates accompanying multiscale gravity waves over Mount Cook, New Zealand, on 13 July 2014 during the DEEPWAVE campaign.
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- Journal of Geophysical Research. Atmospheres, 2015, v. 120, n. 18, p. 9323, doi. 10.1002/2015JD023197
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Self-acceleration and instability of gravity wave packets: 1. Effects of temporal localization.
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- Journal of Geophysical Research. Atmospheres, 2015, v. 120, n. 17, p. 8783, doi. 10.1002/2015JD023363
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- Article