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Publication DateAstrophysical Journal, ISSN 0004-637X, 07/2015, Volume 808, Issue 1, p. 87
There is considerable interest in hydrodynamic instabilities in dead zones of protoplanetary disks as a mechanism for driving angular momentum transport and as...
waves | hydrodynamics | protoplanetary disks | turbulence | accretion, accretion disks | instabilities | LOCAL SHEAR INSTABILITY | BAROCLINIC VORTICITY PRODUCTION | PROTOSTELLAR DISKS | SOUND-PROOF TREATMENTS | COMPRESSIBLE CONVECTION | KELVIN-HELMHOLTZ INSTABILITY | ROTATING SPHERICAL-SHELL | ASTRONOMY & ASTROPHYSICS | THIN ACCRETION DISKS | ROSSBY-WAVE INSTABILITY | WEAKLY MAGNETIZED DISKS
waves | hydrodynamics | protoplanetary disks | turbulence | accretion, accretion disks | instabilities | LOCAL SHEAR INSTABILITY | BAROCLINIC VORTICITY PRODUCTION | PROTOSTELLAR DISKS | SOUND-PROOF TREATMENTS | COMPRESSIBLE CONVECTION | KELVIN-HELMHOLTZ INSTABILITY | ROTATING SPHERICAL-SHELL | ASTRONOMY & ASTROPHYSICS | THIN ACCRETION DISKS | ROSSBY-WAVE INSTABILITY | WEAKLY MAGNETIZED DISKS
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Loading RightsDeep-Sea Research Part II, ISSN 0967-0645, 07/2013, Volume 91, pp. 96 - 110
Analyses of wintertime surveys of the Gulf Stream (GS) conducted as part of the CLIvar MOde water Dynamic Experiment (CLIMODE) reveal that water with negative...
Subtropical mode water | Upper-ocean turbulence | Fronts | Ocean circulation energy | SOUTHERN-OCEAN | POTENTIAL VORTICITY | CONVECTION | STABILITY | BAROCLINIC INSTABILITY | VERTICAL CIRCULATION | FRONT | MIXED-LAYER | OCEAN CIRCULATION | OCEANOGRAPHY | WATER | Turbulence | Ocean circulation | Dynamic meteorology | Analysis
Subtropical mode water | Upper-ocean turbulence | Fronts | Ocean circulation energy | SOUTHERN-OCEAN | POTENTIAL VORTICITY | CONVECTION | STABILITY | BAROCLINIC INSTABILITY | VERTICAL CIRCULATION | FRONT | MIXED-LAYER | OCEAN CIRCULATION | OCEANOGRAPHY | WATER | Turbulence | Ocean circulation | Dynamic meteorology | Analysis
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Loading Rights1955, Occasional report (University of Washington. Dept. of Meteorology and Climatology), Volume 3., iii, 71
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Journal of Physical Oceanography, ISSN 0022-3670, 09/2007, Volume 37, Issue 9, pp. 2228 - 2250
The restratification of the oceanic surface mixed layer that results from lateral gradients in the surface density field is studied. The lateral gradients are...
WAVES | GEOSTROPHIC ADJUSTMENT | CIRCULATION | OCEANOGRAPHY | BAROCLINIC INSTABILITY | PART 1 | UPPER OCEAN RESPONSE | MODEL | VORTICITY | EDDIES | FLOW | Oceanography | Ocean currents
WAVES | GEOSTROPHIC ADJUSTMENT | CIRCULATION | OCEANOGRAPHY | BAROCLINIC INSTABILITY | PART 1 | UPPER OCEAN RESPONSE | MODEL | VORTICITY | EDDIES | FLOW | Oceanography | Ocean currents
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Loading RightsJournal of Physical Oceanography, ISSN 0022-3670, 01/2018, Volume 48, Issue 1, pp. 45 - 60
Baroclinic mixed-layer instabilities have recently been recognized as an important source of submesoscale energy in deep winter mixed layers. While the focus...
Oceanic mixed layer | Ocean dynamics | Baroclinic flows | Convection | MIXED-LAYER INSTABILITIES | DISSIPATION | GEOSTROPHIC TURBULENCE | STABILITY | OCEANOGRAPHY | 2-DIMENSIONAL EADY WAVES | OCEAN FRONTS | DRIVEN | MODEL | NONLINEAR EQUILIBRATION | BALANCE
Oceanic mixed layer | Ocean dynamics | Baroclinic flows | Convection | MIXED-LAYER INSTABILITIES | DISSIPATION | GEOSTROPHIC TURBULENCE | STABILITY | OCEANOGRAPHY | 2-DIMENSIONAL EADY WAVES | OCEAN FRONTS | DRIVEN | MODEL | NONLINEAR EQUILIBRATION | BALANCE
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Vortices in stratified protoplanetary disks: From baroclinic instability to vortex layers
Astronomy and Astrophysics, ISSN 0004-6361, 08/2016, Volume 592, p. A136
Context. Large-scale vortices could play a key role in the evolution of protoplanetary disks, particularly in the dead-zone where no turbulence associated with...
Protoplanetary disks | Instabilities | Hydrodynamics | LINEAR-ANALYSIS | hydrodynamics | TRAP | PLANET FORMATION | instabilities | EVOLUTION | ASTRONOMY & ASTROPHYSICS | THIN ACCRETION DISKS | ROSSBY-WAVE INSTABILITY | CONVECTIVE OVERSTABILITY | protoplanetary disks | DEAD | DISCS | ZONES | Turbulence | Turbulent flow | Baroclinic instability | Vortices | Fluid flow | Disks | Instability | Formations | Physics - Earth and Planetary Astrophysics | Mechanics | Mechanics of the fluids | Physics
Protoplanetary disks | Instabilities | Hydrodynamics | LINEAR-ANALYSIS | hydrodynamics | TRAP | PLANET FORMATION | instabilities | EVOLUTION | ASTRONOMY & ASTROPHYSICS | THIN ACCRETION DISKS | ROSSBY-WAVE INSTABILITY | CONVECTIVE OVERSTABILITY | protoplanetary disks | DEAD | DISCS | ZONES | Turbulence | Turbulent flow | Baroclinic instability | Vortices | Fluid flow | Disks | Instability | Formations | Physics - Earth and Planetary Astrophysics | Mechanics | Mechanics of the fluids | Physics
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Loading Rights1987, 88
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Journal of Physical Oceanography, ISSN 0022-3670, 06/2017, Volume 47, Issue 6, pp. 1291 - 1305
Along-stream variations in the dynamics of the Antarctic Circumpolar Current (ACC) impact heat and tracer transport, regulate interbasin exchange, and...
Mesoscale models | Stability | Eddies | Channel flows | Southern Ocean | Topographic effects | HEAT | TRANSPORT | CIRCULATION | SOUTHERN-OCEAN | OCEANOGRAPHY | FORM STRESS | JETS | FLUX | SUPPRESSION | FLOW | Baroclinic flow | Buoyancy | Spatial discrimination | Banks (topography) | Transportation models | Slopes (topography) | Properties | Governors | Depth | Barotropic instability | Energy budget | Tracer transport | Energy | Eddy kinetic energy | Dynamics | Topography | Polar environments | Budgeting | Kinetic energy | Barotropic mode | Framework | Computer simulation | Energy distribution | Spatial analysis | Topography (geology) | Momentum | Fluxes | Flow | Studies | Flow stability | Heat | Spatial distribution | Environmental science | Baroclinic instability | Meanders | Heat exchange | Vortices | Antarctic Circumpolar Current | Dynamic stability | Distribution | Instability | Models | Transport | Energy transfer | Circulation | Tracers | Regions | Rivers | Properties (attributes) | Simulation
Mesoscale models | Stability | Eddies | Channel flows | Southern Ocean | Topographic effects | HEAT | TRANSPORT | CIRCULATION | SOUTHERN-OCEAN | OCEANOGRAPHY | FORM STRESS | JETS | FLUX | SUPPRESSION | FLOW | Baroclinic flow | Buoyancy | Spatial discrimination | Banks (topography) | Transportation models | Slopes (topography) | Properties | Governors | Depth | Barotropic instability | Energy budget | Tracer transport | Energy | Eddy kinetic energy | Dynamics | Topography | Polar environments | Budgeting | Kinetic energy | Barotropic mode | Framework | Computer simulation | Energy distribution | Spatial analysis | Topography (geology) | Momentum | Fluxes | Flow | Studies | Flow stability | Heat | Spatial distribution | Environmental science | Baroclinic instability | Meanders | Heat exchange | Vortices | Antarctic Circumpolar Current | Dynamic stability | Distribution | Instability | Models | Transport | Energy transfer | Circulation | Tracers | Regions | Rivers | Properties (attributes) | Simulation
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Loading RightsJournal of the Atmospheric Sciences, ISSN 0022-4928, 2014, Volume 71, Issue 6, pp. 2155 - 2168
A low-order general circulation model contains all the elements of baroclinic instability, including differential heating to drive the mean zonal shear flow...
Atmospheric circulation | Nonlinear dynamics | Baroclinic flows | Numerical analysis/modeling | Differential equations | VACILLATIONS | METEOROLOGY & ATMOSPHERIC SCIENCES | WAVES | Usage | Research | Complex systems | Variables | Climate change | Heat | Energy | General circulation models | Meteorology
Atmospheric circulation | Nonlinear dynamics | Baroclinic flows | Numerical analysis/modeling | Differential equations | VACILLATIONS | METEOROLOGY & ATMOSPHERIC SCIENCES | WAVES | Usage | Research | Complex systems | Variables | Climate change | Heat | Energy | General circulation models | Meteorology
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Loading Rights2000, 290
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Quarterly Journal of the Royal Meteorological Society, ISSN 0035-9009, 10/2015, Volume 141, Issue 693, pp. 2972 - 2988
The article presents a description of idealized, balanced initial conditions for dry 3D channel models with either the hydrostatic or non‐hydrostatic...
linear quasi‐geostrophic theory | dynamical core | test case | baroclinic instability | non‐hydrostatic channel models | Coriolis parameter | f‐ and β‐plane | Non-hydrostatic channel models | Baroclinic instability | Test case | Linear quasi-geostrophic theory | Dynamical core | f- and β-plane | LIFE-CYCLE | ENERGY | GRIDS | PERSPECTIVE | linear quasi-geostrophic theory | SCHEME | non-hydrostatic channel models | f- and beta-plane | SYSTEMS | DYNAMICAL CORES | SIMULATIONS | METEOROLOGY & ATMOSPHERIC SCIENCES | INERTIA-GRAVITY WAVES | EULER EQUATIONS
linear quasi‐geostrophic theory | dynamical core | test case | baroclinic instability | non‐hydrostatic channel models | Coriolis parameter | f‐ and β‐plane | Non-hydrostatic channel models | Baroclinic instability | Test case | Linear quasi-geostrophic theory | Dynamical core | f- and β-plane | LIFE-CYCLE | ENERGY | GRIDS | PERSPECTIVE | linear quasi-geostrophic theory | SCHEME | non-hydrostatic channel models | f- and beta-plane | SYSTEMS | DYNAMICAL CORES | SIMULATIONS | METEOROLOGY & ATMOSPHERIC SCIENCES | INERTIA-GRAVITY WAVES | EULER EQUATIONS
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Loading RightsMonthly Notices of the Royal Astronomical Society, ISSN 0035-8711, 10/2018, Volume 480, Issue 2, pp. 2125 - 2136
Several protoplanetary discs observed by ALMA show dust concentrations consistent with particle trapping in giant vortices. The formation and survival of...
Hydrodynamics | Turbulence | Protoplanetary discs | Planets and satellites: formation | DIFFERENTIALLY ROTATING-DISKS | BAROCLINIC VORTICITY PRODUCTION | ANGULAR-MOMENTUM | protoplanetary discs | APPEARANCE | hydrodynamics | PLANET FORMATION | turbulence | EVOLUTION | ASTRONOMY & ASTROPHYSICS | THIN ACCRETION DISKS | ROSSBY-WAVE INSTABILITY | DYNAMICAL STABILITY | planets and satellites: formation | Physics - Earth and Planetary Astrophysics
Hydrodynamics | Turbulence | Protoplanetary discs | Planets and satellites: formation | DIFFERENTIALLY ROTATING-DISKS | BAROCLINIC VORTICITY PRODUCTION | ANGULAR-MOMENTUM | protoplanetary discs | APPEARANCE | hydrodynamics | PLANET FORMATION | turbulence | EVOLUTION | ASTRONOMY & ASTROPHYSICS | THIN ACCRETION DISKS | ROSSBY-WAVE INSTABILITY | DYNAMICAL STABILITY | planets and satellites: formation | Physics - Earth and Planetary Astrophysics
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Loading RightsAstrophysical Journal, ISSN 0004-637X, 02/2019, Volume 871, Issue 2, p. 150
Hydrodynamic instabilities in disks around young stars depend on the thermodynamic stratification of the disk and on the local rate of thermal relaxation....
hydrodynamics | protoplanetary disks | accretion, accretion disks | instabilities | methods: Numerical | ROTATION | SURVIVAL | BAROCLINIC VORTICITY PRODUCTION | ANGULAR-MOMENTUM TRANSPORT | T TAURI STARS | STABILITY | CONVECTION | methods: numerical | EVOLUTION | ASTRONOMY & ASTROPHYSICS | GROWTH | VERTICAL SHEAR INSTABILITY | Physics - Earth and Planetary Astrophysics
hydrodynamics | protoplanetary disks | accretion, accretion disks | instabilities | methods: Numerical | ROTATION | SURVIVAL | BAROCLINIC VORTICITY PRODUCTION | ANGULAR-MOMENTUM TRANSPORT | T TAURI STARS | STABILITY | CONVECTION | methods: numerical | EVOLUTION | ASTRONOMY & ASTROPHYSICS | GROWTH | VERTICAL SHEAR INSTABILITY | Physics - Earth and Planetary Astrophysics
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Loading RightsJournal of Physical Oceanography, ISSN 0022-3670, 03/2014, Volume 44, Issue 3, pp. 818 - 833
The North Pacific Subtropical Countercurrent (STCC) has a weak eastward velocity near the surface, but the region is populated with eddies. Studies have shown...
Seasonal variability | Stability | LOOP CURRENT | EDDY FIELD | TAIWAN | Variability | Interannual variability | Fronts | OCEAN-CIRCULATION | SEA | CYCLOGENESIS | THERMOCLINE | Dynamics | OCEANOGRAPHY | TURBULENCE | Eddies | LINEAR BAROCLINIC INSTABILITY | Circulation | Baroclinic flows | Models | Growth rate | Manuscripts | Meteorology
Seasonal variability | Stability | LOOP CURRENT | EDDY FIELD | TAIWAN | Variability | Interannual variability | Fronts | OCEAN-CIRCULATION | SEA | CYCLOGENESIS | THERMOCLINE | Dynamics | OCEANOGRAPHY | TURBULENCE | Eddies | LINEAR BAROCLINIC INSTABILITY | Circulation | Baroclinic flows | Models | Growth rate | Manuscripts | Meteorology
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Loading Rights1984, WHOI-84-34., 328
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Physics of Fluids, ISSN 1070-6631, 01/2015, Volume 27, Issue 1, p. 14106
A series of three-dimensional numerical simulations is used to study the intrinsic stability of high-speed turbulent flames. Calculations model the interaction...
DIRECT NUMERICAL-SIMULATION | VELOCITY | MECHANICS | PREMIXED COMBUSTION | PHYSICS, FLUIDS & PLASMAS | WRINKLING MODEL | MHD | LARGE-EDDY SIMULATIONS | LARGE-SCALE | LES | PROPAGATION | Baroclinic flow | Detonation | Turbulent flow | Computational fluid dynamics | Computer simulation | Deflagration | Turbulent flames | Elastic waves | Pressure gradients | Flow stability | Density gradients | Flame speed | Vorticity | Isotropic turbulence | Mathematical models | Acceleration | Dimensional stability
DIRECT NUMERICAL-SIMULATION | VELOCITY | MECHANICS | PREMIXED COMBUSTION | PHYSICS, FLUIDS & PLASMAS | WRINKLING MODEL | MHD | LARGE-EDDY SIMULATIONS | LARGE-SCALE | LES | PROPAGATION | Baroclinic flow | Detonation | Turbulent flow | Computational fluid dynamics | Computer simulation | Deflagration | Turbulent flames | Elastic waves | Pressure gradients | Flow stability | Density gradients | Flame speed | Vorticity | Isotropic turbulence | Mathematical models | Acceleration | Dimensional stability
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Loading RightsJournal of Physical Oceanography, ISSN 0022-3670, 11/2018, Volume 48, Issue 11, pp. 2571 - 2592
Weakly stratified layers over sloping topography can support a submesoscale baroclinic instability mode, a bottom boundary layer counterpart to surface mixed...
Instability | Abyssal circulation | Ocean dynamics | Boundary currents | Baroclinic flows | Topographic effects | PART I | EKMAN LAYERS | POTENTIAL VORTICITY | FRONT | DRIVEN | ROUGH TOPOGRAPHY | BUOYANCY | TRANSPORT | OCEANOGRAPHY | SYMMETRIC INSTABILITIES | TURBULENCE | Potential energy | Slopes | Wind | Turbulent flow | Stability | Growth rate | Oceans | Ocean circulation | Topography (geology) | Slope stability | Surface mixed layer | Stability analysis | Turbulent mixing | Mixed layer | Baroclinic instability | Solutions | Dynamics | Topography | Boundary layer dynamics | Cyclones | Boundary layer stability | Surface stability | Boundary layers
Instability | Abyssal circulation | Ocean dynamics | Boundary currents | Baroclinic flows | Topographic effects | PART I | EKMAN LAYERS | POTENTIAL VORTICITY | FRONT | DRIVEN | ROUGH TOPOGRAPHY | BUOYANCY | TRANSPORT | OCEANOGRAPHY | SYMMETRIC INSTABILITIES | TURBULENCE | Potential energy | Slopes | Wind | Turbulent flow | Stability | Growth rate | Oceans | Ocean circulation | Topography (geology) | Slope stability | Surface mixed layer | Stability analysis | Turbulent mixing | Mixed layer | Baroclinic instability | Solutions | Dynamics | Topography | Boundary layer dynamics | Cyclones | Boundary layer stability | Surface stability | Boundary layers
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Loading RightsDynamics of Atmospheres and Oceans, ISSN 0377-0265, 12/2016, Volume 76, pp. 195 - 216
The formation of three Loop Current Eddies, Ekman, Franklin, and Hadal, during the period April 2009 through November 2011 was observed by an array of moored...
Baroclinic instability | Mesoscale Eddies | Western boundary currents | SATELLITE ALTIMETRY | CYCLONIC EDDIES | CIRCULATION | SURFACE HEIGHT VARIABILITY | STREAM | INVERTED ECHO SOUNDERS | SEA | GULF-OF-MEXICO | GEOCHEMISTRY & GEOPHYSICS | OCEANOGRAPHY | FREQUENCY | METEOROLOGY & ATMOSPHERIC SCIENCES | NUMERICAL-SIMULATION | Dynamic meteorology | Force and energy | Aerospace engineering
Baroclinic instability | Mesoscale Eddies | Western boundary currents | SATELLITE ALTIMETRY | CYCLONIC EDDIES | CIRCULATION | SURFACE HEIGHT VARIABILITY | STREAM | INVERTED ECHO SOUNDERS | SEA | GULF-OF-MEXICO | GEOCHEMISTRY & GEOPHYSICS | OCEANOGRAPHY | FREQUENCY | METEOROLOGY & ATMOSPHERIC SCIENCES | NUMERICAL-SIMULATION | Dynamic meteorology | Force and energy | Aerospace engineering
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Loading RightsPhilosophical Transactions: Mathematical, Physical and Engineering Sciences, ISSN 1364-503X, 4/2010, Volume 368, Issue 1916, pp. 1607 - 1633
The magnetorotational instability is believed to play an important role in accretion disc physics in extracting angular momentum from the disc and allowing...
Turbulence | Algebra | Wavelengths | Astrophysics | Geometric growth | Angular momentum | Boundary conditions | Review | Magnetic fields | Accretion disks | Fluid shear | Fluid dynamics | Accretion discs | Magnetorotational instability | LOCAL SHEAR INSTABILITY | BAROCLINIC VORTICITY PRODUCTION | ANGULAR-MOMENTUM TRANSPORT | PROTOPLANETARY DISKS | accretion discs | MULTIDISCIPLINARY SCIENCES | HYDRODYNAMIC TURBULENCE | fluid dynamics | ACCRETION DISKS | PLANE COUETTE TURBULENCE | magnetorotational instability | CONVECTIVE INSTABILITY | SIMULATIONS | WEAKLY MAGNETIZED DISKS
Turbulence | Algebra | Wavelengths | Astrophysics | Geometric growth | Angular momentum | Boundary conditions | Review | Magnetic fields | Accretion disks | Fluid shear | Fluid dynamics | Accretion discs | Magnetorotational instability | LOCAL SHEAR INSTABILITY | BAROCLINIC VORTICITY PRODUCTION | ANGULAR-MOMENTUM TRANSPORT | PROTOPLANETARY DISKS | accretion discs | MULTIDISCIPLINARY SCIENCES | HYDRODYNAMIC TURBULENCE | fluid dynamics | ACCRETION DISKS | PLANE COUETTE TURBULENCE | magnetorotational instability | CONVECTIVE INSTABILITY | SIMULATIONS | WEAKLY MAGNETIZED DISKS
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Loading RightsJOURNAL OF PHYSICAL OCEANOGRAPHY, ISSN 0022-3670, 02/2019, Volume 49, Issue 2, pp. 585 - 605
The stability of a horizontally and vertically sheared surface jet is examined, with a focus on the vertical structure of the resultant eddies. Over a flat...
Topographic effects | BAROCLINIC INSTABILITY | BOTTOM TOPOGRAPHY | Ocean dynamics | NONLINEAR EVOLUTION | ANTARCTIC CIRCUMPOLAR CURRENT | GULF-STREAM | NORTH-ATLANTIC | OCEANOGRAPHY | ABYSSAL HILLS | DYNAMICS | Instability | DEEP-OCEAN BENEATH | ROSSBY WAVES | Eddies | Baroclinic flows | Sciences of the Universe | Ocean, Atmosphere
Topographic effects | BAROCLINIC INSTABILITY | BOTTOM TOPOGRAPHY | Ocean dynamics | NONLINEAR EVOLUTION | ANTARCTIC CIRCUMPOLAR CURRENT | GULF-STREAM | NORTH-ATLANTIC | OCEANOGRAPHY | ABYSSAL HILLS | DYNAMICS | Instability | DEEP-OCEAN BENEATH | ROSSBY WAVES | Eddies | Baroclinic flows | Sciences of the Universe | Ocean, Atmosphere
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