Current-driven flow instabilities in large-scale liquid metal batteries, and how to tame themA gradiometric version of contactless inductive flow tomography: theory and first applications.Contactless inductive flow tomography.Nonlinear Large Scale Flow in a Precessing Cylinder and Its Ability To Drive Dynamo Action.Destabilization of rotating flows with positive shear by azimuthal magnetic fields.Impact of time-dependent nonaxisymmetric velocity perturbations on dynamo action of von Kármán-like flows.Experimental evidence for nonaxisymmetric magnetorotational instability in a rotating liquid metal exposed to an azimuthal magnetic field.Integral equation approach to time-dependent kinematic dynamos in finite domains.Magnetic field saturation in the Riga dynamo experiment.Astrophysical and experimental implications from the magnetorotational instability of toroidal fieldsIntroductionHelical magnetorotational instability in a Taylor-Couette flow with strongly reduced Ekman pumpingResults of a modified PROMISE experimentExperiments on the magnetorotational instability in helical magnetic fieldsExperimental Evidence for Magnetorotational Instability in a Taylor-Couette Flow under the Influence of a Helical Magnetic FieldThe Traveling-Wave MRI in Cylindrical Taylor-Couette Flow: Comparing Wavelengths and Speeds in Theory and ExperimentRemote Didactic Laboratory “G. Savastano,” The Italian Experience for E-Learning at the Technical Universities in the Field of Electrical and Electronic Measurement: Architecture and Optimization of the Communication Performance Based on Thin CliFast estimation of ADC nonlinearities using the Sinewave Histogram TestSimple and Time-Effective Procedure for ADC INL EstimationContactless Inductive Flow Tomography: Brief History and Recent Developments in Its Application to Continuous CastingA statistical analysis of polarity reversals of the geomagnetic fieldOscillation or rotation: a comparison of two simple reversal modelsStability and instability of hydromagnetic Taylor–Couette flowsQuasi-two-dimensional nonlinear evolution of helical magnetorotational instability in a magnetized Taylor–Couette flowOn the Synchronizability of Tayler–Spruit and Babcock–Leighton Type DynamosAzimuthal magnetorotational instability with super-rotationInductive System for Reliable Magnesium Level Detection in a Titanium Reduction ReactorMagnetorotational instability in Taylor-Couette flows between cylinders with finite electrical conductivitySingularity consideration in the integral equations for contactless inductive flow tomographyVisualization of the global flow structure in a modified Rayleigh-Bénard setup using contactless inductive flow tomographyImmersed transient eddy current flow metering: a calibration-free velocity measurement technique for liquid metalsLiquid metal batteries - materials selection and fluid dynamicsMagnetic field dynamos and magnetically triggered flow instabilitiesNumerical simulations of convection in the titanium reduction reactorParametric instability in periodically perturbed dynamosSloshing instability and electrolyte layer rupture in liquid metal batteriesThermal convection of liquid metal in the titanium reduction reactorSynchronized Helicity Oscillations: A Link Between Planetary Tides and the Solar Cycle?Contactless inductive flow tomography: basic principles and first applications in the experimental modelling of continuous castingLinking dissipation-induced instabilities with nonmodal growth: The case of helical magnetorotational instability
P50
Q21558649-4AE7741D-C413-4D3E-8972-091A9B755BE9Q42566306-2BE7DC0E-A95D-4252-AB2A-CDC4D6F5F91FQ45188386-D17823CA-3F42-473C-A070-7288BA232F2DQ49614656-36381FD9-F5F7-45B8-BFB3-868F79E0550BQ50758987-BCDCA740-6877-4271-81EB-4D7C22CD5FF2Q50875628-2DB0BB50-17B7-4B74-BEE2-26E0BFEAFAD3Q51064354-D034353C-76C5-4A1E-8374-24700F64254DQ51982150-A5F426D1-F180-4800-8EB8-1DA7B9CFA816Q55034706-931CC866-84AC-4116-8E7F-9A7EE54F7884Q56837974-A40772A1-0EE3-4918-9575-CCC2AADBAE5FQ56837986-442DE971-D19E-4E2E-9494-2EAE1FD01E19Q56838008-533B1DAC-1A60-49BA-BF83-D0BB86F005D6Q56838015-C915ED3B-D42D-4574-8BF4-FA5C2335A2FBQ56838019-CA9ED6A2-C74A-46A1-BD5C-B96345176BE9Q56838033-81F9DF6B-0B20-4A3B-A3A0-A4ACFBBFF8ABQ56838038-E1289345-00DF-46B3-98A2-521E56491082Q58801927-764F1137-4F19-402F-9277-11E7D71CBBE8Q58801950-0892D3BD-5E9A-40D6-9747-2D481263EAC7Q58801961-46E2CEA0-E60C-42E8-9AC0-891BB993A4F8Q59061962-1D16C7EC-0029-4182-8B78-53BBAA6AB20DQ59334530-E40FEC8F-78F5-47D5-A24A-80B27D012C55Q59334550-3989D434-FA7A-44F5-AAA9-C232E17B0272Q59884122-3B315044-8B35-48EF-9ABD-80868C6E0C78Q61953776-94A004B9-5EA3-4111-A15B-DA2C50284814Q61953780-B952DEA6-2193-49C0-A4B1-86C368C5164BQ61953782-CE1B2F4A-A46C-4ED6-83C9-672D75822D68Q61953784-5E5CEF0B-52C5-4637-B3FE-26DC2325163BQ61953789-9BC5A562-08C9-41A7-BF69-7F83C10A0504Q61953791-D111D32C-AC05-4F44-B464-59A6B353F475Q61953794-D1F30D17-E459-4184-8A5D-0E14058119F2Q61953796-ED171687-39BE-494A-B5BB-254A99486499Q61953798-BB978E50-C261-4740-9D22-FC0DD8D25944Q61953802-05B9C474-9573-4D91-AC38-2A447ACF694EQ61953805-67A469A5-855E-41B4-89AC-FC6299E936AAQ61953809-93784A91-DBAA-4202-AFF4-8CA6E6702C96Q61953820-2AD6201E-9C95-46B9-85B6-C2103231C90DQ61953831-B23E3EB8-8BDE-43DA-928C-A9BF18CC6C54Q61953838-961BA17F-49BF-4609-9AE2-87D062AAACF8Q61953845-108859C0-CAC9-48C6-84E9-73F8FBB6B442Q61953846-7683DFF7-F84B-4853-874F-634C399F5E34
P50
description
Duits onderzoeker
@nl
deutscher Physiker
@de
hulumtues
@sq
researcher
@en
ricercatore
@it
немецкий физик
@ru
հետազոտող
@hy
name
Frank Stefani
@ast
Frank Stefani
@de
Frank Stefani
@en
Frank Stefani
@es
Frank Stefani
@nl
Frank Stefani
@sl
Франк Стефани
@ru
type
label
Frank Stefani
@ast
Frank Stefani
@de
Frank Stefani
@en
Frank Stefani
@es
Frank Stefani
@nl
Frank Stefani
@sl
Франк Стефани
@ru
altLabel
Стефани, Франк
@ru
prefLabel
Frank Stefani
@ast
Frank Stefani
@de
Frank Stefani
@en
Frank Stefani
@es
Frank Stefani
@nl
Frank Stefani
@sl
Франк Стефани
@ru
P214
P227
P1053
B-3287-2010
P106
P1153
7103150273
P1412
P21
P214
P227
1071913492
P31
P3829
P496
0000-0002-8770-4080
P569
1962-01-01T00:00:00Z
P734
P735
P7859
viaf-315973284