Visualization of Symmetric and Antisymmetric Lamb Waves Via the Elastodynamic Poynting Vector
Cleon Dean
Part of the Physical Sciences and Mathematics Commons
Works by Cleon Dean in Physical Sciences and Mathematics
2021
Visualization of the Energy Flow for Guided Surface and Fluid Waves: Comparison and Contrast of Conventional Vector Field Vs. Color Coded Representation of the Poynting Vector
Cleon Dean
Visualization of the Energy Flow for a Guided Forward Wave in and Around a Fluid Loaded Elastic Cylindrical Shell
Cleon Dean
Energy Flux Streamlines versus Acoustic Rays for Modeling Interaction with Rigid Boundaries: Near Field of Sound from a Circular Loudspeaker
James P. Braselton
Energy Flux Streamlines versus Acoustic Rays for Modeling Interaction with Rigid Boundaries: Near Field of Sound from a Circular Loudspeaker
Cleon Dean
Opening rate of the transverse cusp diffraction catastrophe in light scattered by oblate spheroidal drops: errata
Cleon Dean
Hamilton’s Principle and the Equations of Motion of an Elastic Shell with Proper Fluid Loading
Cleon Dean
The importance of proper fluid loading to the prediction of pseudo-Stoneley resonances form shell theories
Cleon Dean
Interactive Electromagnetic Scattering from Two Air Bubbles in Water: Computational Methods
Cleon Dean
The prediction of pseudo-Stoneley resonances via proper fluid loading of thin shell theories
Cleon Dean
Proper fluid loading of thin shell theories and the prediction of pseudo-Stoneley resonances
Cleon Dean
The prediction of pseudo-Stoneley resonances via proper fluid loading of thin shell theories
Cleon Dean
The study of pulse returns from elongated elastic shells and the extraction of target characteristics
Cleon Dean
The study of pulse returns from elongated elastic shells and the extraction of target characteristics
Cleon Dean
Asymptotically correct shell theories with fluid loading for the thin spherical shell: new results
Cleon Dean
Asymptotically correct shell theories with fluid loading for the thin spherical shell: new results
Cleon Dean
Opening rate of the transverse cusp diffraction catastrophe in light scattered by oblate spherical drops
Cleon Dean
Visualization of the energy flow for a guided forward wave in and around a fluid loaded elastic cylindrical shell: Color coding of the Poynting vector field
Cleon Dean
Visualization of the energy flow for guided forward and backward waves in and around a fluid-loaded elastic cylindrical shell via the Poynting vector field
Cleon Dean
Visualization of the energy flow for guided forward and backward waves in and around a fluid-loaded elastic cylindrical shell via the Poynting vector field
Cleon Dean
The elastodynamic Poynting vector bridges the gap in student understanding of complex wave phenomena
Cleon Dean
The elastodynamic Poynting vector bridges the gap in student understanding of complex wave phenomena
Cleon Dean
The energy flow for guided waves at and inside the surface of an ensonified fluid loaded elastic cylindrical shell via the Poynting vector field: Preliminary results
Cleon Dean
The energy flow for guided waves at and inside the surface of an ensonified fluid loaded elastic cylindrical shell via the Poynting vector field: Preliminary results
Cleon Dean
Energy flux streamlines versus acoustic rays for modeling interaction with rigid boundaries: a Lloyd’s mirror experiment
Cleon Dean
Visualization of the energy flow for guided waves near the surface of an ensonified fluid loaded elastic cylindrical shell via the Poynting vector field
Cleon Dean
The energy flow for a spherical acoustic lens: experimental results avoiding interference effects
Cleon Dean
Visualization of the energy flow for guided waves near the surface of an ensonified fluid loaded elastic cylindrical shell via the Poynting vector field
Cleon Dean
Energy flux streamlines vs. the alternatives for the visualization of energy flow in acoustical scattering problems: Simple examples
Cleon Dean
The energy flow for a spherical acoustic lens: experimental results avoiding interference effects
Cleon Dean
Energy flux streamlines vs. the alternatives for the visualization of energy coupling at and inside the surface of an ensonified fluid loaded elastic cylindrical shell with vacuum interior: Preliminary results
Cleon Dean
The energy flow for guided waves at and inside the surface of an ensonified fluid loaded elastic cylindrical shell via the Poynting vector field
Cleon Dean
The energy flow for guided waves at and inside the surface of an ensonified fluid loaded elastic cylindrical shell via the Poynting vector field
Cleon Dean
Energy flux streamlines versus acoustic rays for modeling interaction with rigid boundaries: a Lloyd’s mirror experiment
James P. Braselton
Energy flux streamlines vs. the alternatives for the visualization of energy coupling at and inside the surface of an ensonified fluid loaded elastic cylindrical shell with vacuum interior: Preliminary results
James P. Braselton
Energy flux streamlines vs. the alternatives for the visualization of energy flow in acoustical scattering problems: Simple examples
James P. Braselton
Poynting vector fields in a perpendicularly ensonified fluid loaded elastic cylinder
James P. Braselton
The energy flow for a spherical acoustic lens: ray and wave methods vs. experiment
James P. Braselton
The elastodynamic Poynting vector bridges the gap in student understanding of complex wave phenomena
James P. Braselton
The elastodynamic Poynting vector bridges the gap in student understanding of complex wave phenomena
James P. Braselton
Visualization of the energy flow for guided waves near the surface of an ensonified fluid loaded elastic cylindrical shell via the Poynting vector field
James P. Braselton
Visualization of a surface wave in an elastic medium via the complex Poynting vector
James P. Braselton
Visualization of the energy flow for guided forward and backward waves in and around a fluid-loaded elastic cylindrical shell via the Poynting vector field
James P. Braselton
Visualization of the energy flow for guided waves near the surface of an ensonified fluid loaded elastic cylindrical shell via the Poynting vector field
James P. Braselton
Visualization of the energy flow for guided forward and backward waves in and around a fluid-loaded elastic cylindrical shell via the Poynting vector field
James P. Braselton
Visualization of the energy flow for a guided forward wave in and around a fluid loaded elastic cylindrical shell: Color coding of the Poynting vector field
James P. Braselton
The energy flow for guided waves at and inside the surface of an ensonified fluid loaded elastic cylindrical shell via the Poynting vector field: Preliminary results
James P. Braselton
The energy flow for guided waves at and inside the surface of an ensonified fluid loaded elastic cylindrical shell via the Poynting vector field: Preliminary results
James P. Braselton
The energy flow for guided waves at and inside the surface of an ensonified fluid loaded elastic cylindrical shell via the Poynting vector field
James P. Braselton
The energy flow for guided waves at and inside the surface of an ensonified fluid loaded elastic cylindrical shell via the Poynting vector field
James P. Braselton
2017
Visualization of Symmetric and Antisymmetric Lamb Waves Via the Elastodynamic Poynting Vector
James P. Braselton
Visualization of the Energy Flow for Guided Surface and Fluid Waves: Comparison and Contrast of Conventional Vector Field Vs. Color Coded Representation of the Poynting Vector
James P. Braselton
Visualization of the Energy Flow for a Guided Forward Wave in and Around a Fluid Loaded Elastic Cylindrical Shell
James P. Braselton
Visualization of a Surface Wave in an Elastic Medium via the Complex Poynting Vector
James P. Braselton
2015
The Energy Flow for a Spherical Acoustic Lens: Ray and Wave Methods vs Experiment
James P. Braselton
Energy Flux Streamlines versus the Alternatives for the Visualization of Energy Flow in Acoustical Scattering Problems: Simple Examples
James P. Braselton
Energy Flux Streamlines vs the Alternatives for the Visualization of Energy Coupling at and Inside the Surface of an Ensonified Fluid Loaded Elastic Cylindrical Shell with Vacuum Interior: Preliminary Results
James P. Braselton
A Ray Model of Sound Focusing with a Balloon Lens: An Experiment for High School Students
Cleon Dean
The Energy Flow for a Spherical Acoustic Lens: Experimental Results Avoiding Interference Effects
Cleon Dean
Energy Flux Streamlines versus the Alternatives for the Visualization of Energy Flow in Acoustical Scattering Problems: Simple Examples
Cleon Dean
Energy Flux Streamlines vs the Alternatives for the Visualization of Energy Coupling at and Inside the Surface of an Ensonified Fluid Loaded Elastic Cylindrical Shell with Vacuum Interior: Preliminary Results
Cleon Dean
Energy Flux Streamlines versus Acoustic Rays for Modeling Interaction with Rigid Boundaries: Near Field of Sound from a Circular Loudspeaker
Cleon Dean
A Ray Model of Sound Focusing with a Balloon Lens: An Experiment for High School Students
Cleon Dean
A Simple High School Lloyd’s Mirror Experiment: The Difference between Theory and Experiment
Cleon Dean
2014
2013
2012
Energy flux streamlines versus acoustic rays for modeling interaction with rigid boundaries: a Lloyd’s mirror experiment
Department of Physics and Astronomy Faculty Presentations
2011
Energy flux streamlines vs. the alternatives for the visualization of energy flow in acoustical scattering problems: Simple examples
Department of Physics and Astronomy Faculty Presentations
2010
Energy Flux Streamlines versus the Alternatives for the Visualization of Energy Coupling Inside and Outside the Surface of an Ensonified Spherical Acoustic Lens: Preliminary Results
Department of Mathematical Sciences Faculty Presentations
The energy flow for a spherical acoustic lens: experimental results avoiding interference effects
Department of Physics and Astronomy Faculty Presentations
2009
Ray Model of Sound Focusing with a Balloon Lens
Department of Physics and Astronomy Faculty Presentations
Energy flux streamlines vs. the alternatives for the visualization of energy coupling at and inside the surface of an ensonified fluid loaded elastic cylindrical shell with vacuum interior: Preliminary results
Department of Physics and Astronomy Faculty Presentations
The energy flow for a spherical acoustic lens: ray and wave methods vs. experiment
Department of Physics and Astronomy Faculty Presentations
2008
An improved method of visualizing the energy flow: the Rayleigh wave
Department of Physics and Astronomy Faculty Presentations
Optics of Bubbles in Water: Scattering Properties, Coatings, and Laser Radiation Pressure
Cleon Dean
Light Scattering from Spheroidal Drops: Exploring Optical Catastrophes and Generalized Rainbows
Cleon Dean
2007
The energy flow for guided waves at and inside the surface of an ensonified fluid loaded elastic cylindrical shell via the Poynting vector field
Department of Physics and Astronomy Faculty Presentations
The energy flow for guided waves at and inside the surface of an ensonified fluid loaded elastic cylindrical shell via the Poynting vector field: Preliminary results
Department of Physics and Astronomy Faculty Presentations
The Classroom in Transition: Intermediate Results from Georgia Southern University
Department of Physics and Astronomy Faculty Presentations
The energy flow for guided waves at and inside the surface of an ensonified fluid loaded elastic cylindrical shell via the Poynting vector field
Department of Physics and Astronomy Faculty Publications
The Classroom in Transition: Latest Results from Georgia Southern University
Department of Physics and Astronomy Faculty Presentations
2006
Visualization of the energy flow for guided waves near the surface of an ensonified fluid loaded elastic cylindrical shell via the Poynting vector field
Department of Physics and Astronomy Faculty Presentations
2005
Opening rate of the transverse cusp diffraction catastrophe in scattering from oblate penetrable spheroids
Cleon Dean
Determination of material composition from time-domain and frequency-domain resonance echoes of submerged elongated elastic targets
Cleon Dean
Comparison of backscattered echoes predicted from exact theory and from thin‐shell theories
Cleon Dean
The elastodynamic Poynting vector bridges the gap in student understanding of complex wave phenomena
Department of Physics and Astronomy Faculty Presentations
Implementing JiTT with Peer Instruction via MasteringPhysics™ Web Technology
Department of Physics and Astronomy Faculty Publications
Implementing JiTT with Peer Instruction via MasteringPhysics™ Web Technology
Department of Physics and Astronomy Faculty Presentations
2004
The Possibilities of Time Travel via Relativity Theory
Department of Physics and Astronomy Faculty Presentations
Visualization of the energy flow for guided forward and backward waves in and around a fluid-loaded elastic cylindrical shell via the Poynting vector field
Department of Physics and Astronomy Faculty Presentations
2003
2002
2001
2000
1999
Poynting vector fields in a perpendicularly ensonified fluid loaded elastic cylinder
Department of Physics and Astronomy Faculty Publications
1998
The determination of relative strengths of resonances excited for plane waves scattered from elastic spheroids
Cleon Dean
1996
Visualization of a Surface Wave in an Elastic Medium via the Complex Poynting Vector
Department of Mathematical Sciences Faculty Presentations
1994
Asymptotically correct shell theories with fluid loading for the thin spherical shell: new results
Department of Physics and Astronomy Faculty Presentations
The study of pulse returns from elongated elastic shells and the extraction of target characteristics
Department of Physics and Astronomy Faculty Presentations
The importance of proper fluid loading to the prediction of pseudo-Stoneley resonances form shell theories
Department of Physics and Astronomy Faculty Publications
The study of pulse signals from elastic spheroidal shells near reflecting interfaces
Department of Physics and Astronomy Faculty Presentations
Opening rate of the transverse cusp diffraction catastrophe in light scattered by oblate spherical drops
Department of Physics and Astronomy Faculty Publications
1993
The prediction of pseudo-Stoneley resonances via proper fluid loading of thin shell theories
Department of Physics and Astronomy Faculty Presentations
Hamilton’s Principle and the Equations of Motion of an Elastic Shell with Proper Fluid Loading
Department of Physics and Astronomy Faculty Presentations
Interactive Electromagnetic Scattering from Two Air Bubbles in Water: Computational Methods
Department of Physics and Astronomy Faculty Presentations
Variational methods and the derivation of shell theories to approximate vibrations of bounded elastic shells
Cleon Dean
The Construction of Shell Theories with Fluid Loading to Approximate Scattering from Submerged Bounded Objects via Techniques in Differential Geometry
Cleon Dean
1992
Asymptotically correct shell theories with fluid loading for the thin spherical shell: Further results
Cleon Dean
The determination of relative strengths of resonances excited for plane waves scattered from elastic spheroids
Cleon Dean
Theoretical Predictions for Scattering from Elastic Solid Cylinders with Hemispherical Caps and Comparison with Data
Cleon Dean
Theoretical Predictions for Scattering from Elastic Solid Cylinders with Hemispherical Caps and Comparison with Data
Cleon Dean
Shell Theories with Fluid Loading to Approximate Scattering from Submerged Bounded Objects
Cleon Dean
A Comparison of Membrane, Vacuum, and Fluid Loaded Spherical Shell Models with Exact Results
Cleon Dean
Pseudo-Stoneley waves predicted by shell theory for the thin spherical shell via proper fluid loading
Cleon Dean
Shell Theories with Fluid Loading to Approximate Scattering from Submerged Bounded Objects
Cleon Dean
Hamilton’s principle and the equations of motion of an elastic shell with and without fluid loading
Cleon Dean
Asymptotically correct shell theories with fluid loading for the thin spherical shell: Further results
Cleon Dean
Pseudo-Stoneley waves predicted by shell theory for the thin spherical shell via proper fluid loading
Cleon Dean
Polar and Cartesian Expressions for Principal Curvatures,” Appendix of “Geometrical and Catastrophe Optics Methods in Scattering
Cleon Dean
1991
Target shape and material composition from resonance echoes of submerged elongated elastic targets
Cleon Dean
The Construction of Shell Theories with Fluid Loading to Approximate Scattering from Submerged Bounded Objects via Techniques in Differential Geometry
Cleon Dean
Determination of material composition from time-domain and frequency-domain resonance echoes of submerged elongated elastic targets
Cleon Dean
Variational methods and the derivation of shell theories to approximate vibrations of bounded elastic shells
Cleon Dean
Opening rate of the transverse cusp diffraction catastrophe in scattering from oblate penetrable spheroids
Cleon Dean
A systematic study of calculations for scattering of plane waves from submerged elastic solid cylinders with hemispherical caps
Cleon Dean
Hamilton's principle and the derivation of shell theories to approximate vibrations of bounded elastic shells
Cleon Dean
Hamilton's principle and the derivation of shell theories to approximate vibrations of bounded elastic shells
Cleon Dean
Hamilton’s principle and the equations of motion of an elastic shell with and without fluid loading
Cleon Dean
A systematic study of calculations for scattering of plane waves from submerged elastic solid cylinders with hemispherical caps
Cleon Dean
Opening rate of the transverse cusp diffraction catastrophe in light scattered by oblate spheroidal drops
Cleon Dean
1990
Opening Rate of the Transverse Cusp Diffraction Catastrophe from Oblate Spheroidal Water Drops
Cleon Dean
1989
Analysis of scattered light: I. Asymptotic series for critical angle scattering from bubbles: II. The opening rate of the transverse cusp from oblate drops
Cleon Dean
1988
Scattering of light by a coated bubble in water near the critical and Brewster scattering angles
Cleon Dean
Electromagnetic scattering from two dielectric spheres: comparison between theory and experiment
Cleon Dean
1983
Electromagnetic scattering from two dielectric spheres: comparison between theory and experiment
Cleon Dean
