Add to ORKGThe coherent component of acoustic under-ice reflectivity was investigated as a function of frequency and grazing angle in the Marginal Ice Zone (MIZ). Measured reflectivity was compared with predictions by scattering theories to test the hypothesis of ridge scattering dominance in the MIZ. Explosive source acoustic signals were received on a vertical array, during the Marginal Ice Zone Experiment (MIZEX 84), and deconvolved to separate the direct and surface-reflected arrivals. Data was available from multiple days and ranges, resulting in an ensemble of ice-scattered measurements. The surface arrivals were aligned in time and coherently averaged over grazing angle for frequency bins from 64 to 256 Hz. Coherent reflectivity decreased with ...
The reflection coefficient (R) at the interface of two media provides information on their electroma...
Submitted in partial fulfillment of the requirements for the degree of Doctor of Science at the Mass...
Deployed instruments in the Arctic Ocean cannot easily communicate to surface or between other instr...
There is continuing interest in understanding the propagation of sound in the Arctic Ocean. The loca...
A characteristic surface duct beneath the sea-ice in the Marginal Ice Zone causes acoustic waves to ...
Surface acoustic backscatter angular response is commonly used for seafloor sediment characterizatio...
The primary goal of this thesis is to utilize acoustical radiation from the Arctic ice cover to infe...
The main objective of this project is to study the effect of sea-ice on underwater acoustic wave pro...
Acoustic experiments using an integrated ice station were carried out during August 2012 and Septemb...
This thesis is concerned with layered reflections observed in the Antarctic and Greenland ice sheets...
Radio echo surveys to determine the thickness of ice sheets often record reflections from inside the...
The article of record as published may be found at http://inis.iaea.org/search/search.aspx?orig_q=RN...
This thesis investigates the three-dimensional mid-frequency (ka 0 O(1)) acoustic scatter from large...
Autonomous underwater vehicles are improving and expanding in situ observations of sea ice for the v...
The propagation of underwater acoustic signals in polar regions is dominated by an upward refracting...
The reflection coefficient (R) at the interface of two media provides information on their electroma...
Submitted in partial fulfillment of the requirements for the degree of Doctor of Science at the Mass...
Deployed instruments in the Arctic Ocean cannot easily communicate to surface or between other instr...
There is continuing interest in understanding the propagation of sound in the Arctic Ocean. The loca...
A characteristic surface duct beneath the sea-ice in the Marginal Ice Zone causes acoustic waves to ...
Surface acoustic backscatter angular response is commonly used for seafloor sediment characterizatio...
The primary goal of this thesis is to utilize acoustical radiation from the Arctic ice cover to infe...
The main objective of this project is to study the effect of sea-ice on underwater acoustic wave pro...
Acoustic experiments using an integrated ice station were carried out during August 2012 and Septemb...
This thesis is concerned with layered reflections observed in the Antarctic and Greenland ice sheets...
Radio echo surveys to determine the thickness of ice sheets often record reflections from inside the...
The article of record as published may be found at http://inis.iaea.org/search/search.aspx?orig_q=RN...
This thesis investigates the three-dimensional mid-frequency (ka 0 O(1)) acoustic scatter from large...
Autonomous underwater vehicles are improving and expanding in situ observations of sea ice for the v...
The propagation of underwater acoustic signals in polar regions is dominated by an upward refracting...
The reflection coefficient (R) at the interface of two media provides information on their electroma...
Submitted in partial fulfillment of the requirements for the degree of Doctor of Science at the Mass...
Deployed instruments in the Arctic Ocean cannot easily communicate to surface or between other instr...