The elastodynamic Poynting vector bridges the gap in student understanding of complex wave phenomena, Cleon Dean, James P. Braselton
Cleon Dean

The elastodynamic Poynting vector bridges the gap in student understanding of complex wave phenomena, Cleon Dean, James P. Braselton
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, James P. Braselton
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, James P. Braselton
Cleon Dean

Energy flux streamlines versus acoustic rays for modeling interaction with rigid boundaries: a Lloyd’s mirror experiment, Cleon Dean, James P. Braselton
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, James P. Braselton
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, James P. Braselton
Cleon Dean

Energy flux streamlines vs. the alternatives for the visualization of energy flow in acoustical scattering problems: Simple examples, Cleon Dean, James P. Braselton
Cleon Dean

The energy flow for a spherical acoustic lens: ray and wave methods vs. experiment, Cleon Dean, James P. Braselton
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, James P. Braselton
Cleon Dean

The energy flow for a spherical acoustic lens: ray vs. wave methods, Cleon E. Dean, James P. Braselton
Cleon Dean

An improved method of visualizing the energy flow: the Rayleigh wave, Cleon Dean, James P. Braselton
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, James P. Braselton
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, James P. Braselton
Cleon Dean

An improved method of visualizing the energy flow: the Rayleigh wave, Cleon Dean, James P. Braselton
James P. Braselton

Energy flux streamlines versus acoustic rays for modeling interaction with rigid boundaries: a Lloyd’s mirror experiment, Cleon Dean, James P. Braselton
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, Cleon Dean, James P. Braselton
James P. Braselton

Energy flux streamlines vs. the alternatives for the visualization of energy flow in acoustical scattering problems: Simple examples, Cleon Dean, James P. Braselton
James P. Braselton

The energy flow for a spherical acoustic lens: ray and wave methods vs. experiment, Cleon Dean, James P. Braselton
James P. Braselton

The energy flow for a spherical acoustic lens: ray vs. wave methods, Cleon E. Dean, James P. Braselton
James P. Braselton

The elastodynamic Poynting vector bridges the gap in student understanding of complex wave phenomena, Cleon Dean, James P. Braselton
James P. Braselton

The elastodynamic Poynting vector bridges the gap in student understanding of complex wave phenomena, Cleon Dean, James P. Braselton
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, Cleon Dean, James P. Braselton
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, Cleon Dean, James P. Braselton
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, Cleon Dean, James P. Braselton
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, Cleon Dean, James P. Braselton
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, Cleon Dean, James P. Braselton
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, Cleon Dean, James P. Braselton
James P. Braselton

The Energy Flow for a Spherical Acoustic Lens: Ray and Wave Methods vs Experiment, Cleon Dean, James P. Braselton
James P. Braselton

The Energy Flow For A Spherical Acoustic Lens: Ray vs. Wave Methods, Cleon Dean, James P. Braselton
James P. Braselton

Energy Flux Streamlines versus the Alternatives for the Visualization of Energy Flow in Acoustical Scattering Problems: Simple Examples, Cleon Dean, James P. Braselton
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, Cleon Dean, James P. Braselton
James P. Braselton

An Improved Method Of Visualizing The Energy Flow: The Rayleigh Wave, Cleon Dean, James P. Braselton
James P. Braselton

The Energy Flow for a Spherical Acoustic Lens: Ray and Wave Methods vs Experiment, Cleon Dean, James P. Braselton
Cleon Dean

The Energy Flow For A Spherical Acoustic Lens: Ray vs. Wave Methods, Cleon Dean, James P. Braselton
Cleon Dean

Energy Flux Streamlines versus the Alternatives for the Visualization of Energy Flow in Acoustical Scattering Problems: Simple Examples, Cleon Dean, James P. Braselton
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, James P. Braselton
Cleon Dean

Energy Flux Streamlines versus Acoustic Rays for Modeling Interaction with Rigid Boundaries: Near Field of Sound from a Circular Loudspeaker, Cleon Dean, James P. Braselton
Cleon Dean

An Improved Method Of Visualizing The Energy Flow: The Rayleigh Wave, Cleon Dean, James P. Braselton
Cleon Dean

Energy Flux Streamlines versus Acoustic Rays for Modeling Interaction with Rigid Boundaries: Near Field of Sound from a Circular Loudspeaker, Cleon Dean, James P. Braselton
Department of Physics and Astronomy Faculty Publications

Energy flux streamlines versus acoustic rays for modeling interaction with rigid boundaries: a Lloyd’s mirror experiment, Cleon Dean, James P. Braselton
Department of Physics and Astronomy Faculty Presentations

Energy Flux Streamlines versus the Alternatives for the Visualization of Energy Flow in Acoustical Scattering Problems: Simple Examples, Cleon Dean, James P. Braselton
Department of Physics and Astronomy Faculty Publications

Energy flux streamlines vs. the alternatives for the visualization of energy flow in acoustical scattering problems: Simple examples, Cleon Dean, James P. Braselton
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, Cleon Dean, James P. Braselton
Department of Physics and Astronomy Faculty Presentations

The energy flow for a spherical acoustic lens: ray and wave methods vs. experiment, Cleon Dean, James P. Braselton
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, Cleon Dean, James P. Braselton
Department of Physics and Astronomy Faculty Publications

The Energy Flow for a Spherical Acoustic Lens: Ray and Wave Methods vs Experiment, Cleon Dean, James P. Braselton
Department of Physics and Astronomy Faculty Publications

An improved method of visualizing the energy flow: the Rayleigh wave, Cleon Dean, James P. Braselton
Department of Physics and Astronomy Faculty Presentations

The Energy Flow For A Spherical Acoustic Lens: Ray vs. Wave Methods, Cleon Dean, James P. Braselton
Department of Physics and Astronomy Faculty Publications

An Improved Method Of Visualizing The Energy Flow: The Rayleigh Wave, Cleon Dean, James P. Braselton
Department of Physics and Astronomy Faculty Publications

The energy flow for a spherical acoustic lens: ray vs. wave methods, Cleon E. Dean, James P. Braselton
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, Cleon Dean, James P. Braselton
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, Cleon Dean, James P. Braselton
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, Cleon Dean, James P. Braselton
Department of Physics and Astronomy Faculty Publications

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, James P. Braselton
Department of Physics and Astronomy Faculty Publications

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, James P. Braselton
Department of Physics and Astronomy Faculty Presentations

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, James P. Braselton
Department of Physics and Astronomy Faculty Publications

The elastodynamic Poynting vector bridges the gap in student understanding of complex wave phenomena, Cleon Dean, James P. Braselton
Department of Physics and Astronomy Faculty Presentations

The elastodynamic Poynting vector bridges the gap in student understanding of complex wave phenomena, Cleon Dean, James P. Braselton
Department of Physics and Astronomy Faculty Publications

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, James P. Braselton
Department of Physics and Astronomy Faculty Publications

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, James P. Braselton
Department of Physics and Astronomy Faculty Publications

Poynting vector fields in a perpendicularly ensonified fluid loaded elastic cylinder, Cleon Dean, James P. Braselton
Department of Physics and Astronomy Faculty Publications

Visualization of a surface wave in an elastic medium via the complex Poynting vector, Cleon Dean, James P. Braselton
Department of Physics and Astronomy Faculty Publications

Visualization of the energy flux in an ensonified fluid-loaded elastic sphere, Cleon Dean, James P. Braselton
Department of Physics and Astronomy Faculty Publications

Critical angle light scattering from bubbles: an asymptotic series approximation, Cleon Dean, James P. Braselton
Cleon Dean