An ultrasonic and optical waveguide apparatus includes a face plate and an ultrasonic waveguide extending through a portion of the face plate. The ultrasonic waveguide has a hollow interior with an interior diameter tapered along an elongate axis of the ultrasonic waveguide. The elongate axis of the ultrasonic waveguide is oriented orthogonal to the face plate. An optical shield extends through at least a portion of the hollow interior of the ultrasonic waveguide. The optical shield prevents transmission of a portion of light through the hollow interior.

An ultrasonic and optical waveguide apparatus includes a face plate and an ultrasonic waveguide extending through a portion of the face plate. The ultrasonic waveguide has a hollow interior with an interior diameter tapered along an elongate axis of the ultrasonic waveguide. The elongate axis of the ultrasonic waveguide is oriented orthogonal to the face plate. An optical shield extends through at least a portion of the hollow interior of the ultrasonic waveguide. The optical shield prevents transmission of a portion of light through the hollow interior.

The present invention encompasses systems and methods for mounting speakers in the front of a vehicle to address multiple issues that exist with audio systems currently on the market. More specifically, the present invention improves and optimizes the phase correct and time correct aspects of existing technologies.

A system for maintaining coherence of ultrasound waves emitted by multiple transducer arrays includes multiple retention arms, each for receiving one of the transducer arrays; a connecting frame for receiving and mechanically retaining the arms in fixed angular relation to each other; and a processor configured to determine relative locations of the transducer arrays with respect to one another and the connecting frame; determine a location of the connecting frame relative to an anatomic region of interest; determine a spatial arrangement of the transducer elements in each transducer array with respect to the anatomic region of interest; and adjust a transmission configuration of the transducer elements in the transducer arrays to achieve a desired focusing property with respect to the anatomic region of interest while maintaining coherence therebetween.

An apparatus for transmitting ultrasound comprises a curved oscillating body having a coupling surface for coupling a converter, wherein the oscillating body is curved and has a recess.

An apparatus for transmitting ultrasound comprises a curved oscillating body having a coupling surface for coupling a converter, wherein the oscillating body is curved and has a recess.

An acoustic imaging metamaterial is provided for obtaining edge detection information of a tangible object. The acoustic imaging metamaterial includes a longitudinally extending phononic crystal substrate that defines a first major surface and a second major surface opposite the first major surface. A first structurally rigid grating layer is disposed adjacent the first major surface, and a second structurally rigid grating layer is disposed adjacent the second major surface. In various aspects, the first and second structurally rigid grating layers are identical in shape and dimensions, and are aligned with one another. The acoustic imaging metamaterial is configured to redirect, confine, and/or manipulate an incident acoustic wave resulting in a high contrast image used for extracting edge detection information of the tangible object. The background medium fluid of the system can be air or a fluid such as water.

An acoustic imaging metamaterial is provided for obtaining edge detection information of a tangible object. The acoustic imaging metamaterial includes a longitudinally extending phononic crystal substrate that defines a first major surface and a second major surface opposite the first major surface. A first structurally rigid grating layer is disposed adjacent the first major surface, and a second structurally rigid grating layer is disposed adjacent the second major surface. In various aspects, the first and second structurally rigid grating layers are identical in shape and dimensions, and are aligned with one another. The acoustic imaging metamaterial is configured to redirect, confine, and/or manipulate an incident acoustic wave resulting in a high contrast image used for extracting edge detection information of the tangible object. The background medium fluid of the system can be air or a fluid such as water.

An acoustic structure for beaming soundwaves from a first direction toward a second direction, may include a plurality of phononic crystals. The plurality of phononic crystals have an outer border, an internal cavity and a channel extending between the outer border and the internal cavity, wherein the channel defines an opening within the outer border. The phononic crystals are disposed such that the opening faces the second direction. Soundwaves from the first direction are beamed to the second direction by the plurality of phononic crystals.

An acoustic structure for beaming soundwaves from a first direction toward a second direction, may include a plurality of phononic crystals. The plurality of phononic crystals have an outer border, an internal cavity and a channel extending between the outer border and the internal cavity, wherein the channel defines an opening within the outer border. The phononic crystals are disposed such that the opening faces the second direction. Soundwaves from the first direction are beamed to the second direction by the plurality of phononic crystals.