Patent application number | Description | Published |
20090108710 | High Frequency Piezocomposite And Methods For Manufacturing Same - A transducer with triangular cross-sectional shaped pillars is described for suppressing lateral modes within a composite, and a method for producing the same. According to one aspect of the present application, a plurality of triangular cross-sectional shaped pillars extends outwardly from a substrate and form an array of pillars. The resulting array of pillars is configured to suppress the lateral modes of the transducer at higher operating frequencies, such as, at or above 15 MHz, at or above 20 MHz, or at or above 30 MHz. | 04-30-2009 |
20110273059 | HIGH FREQUENCY PIEZOCOMPOSITE AND METHODS FOR MANUFACTURING SAME - A transducer with triangular cross-sectional shaped pillars is described for suppressing lateral modes within a composite, and a method for producing the same. According to one aspect of the present application, a plurality of triangular cross-sectional shaped pillars extends outwardly from a substrate and form an array of pillars. The resulting array of pillars is configured to suppress the lateral modes of the transducer at higher operating frequencies, such as, at or above 15 MHz, at or above 20 MHz, or at or above 30 MHz. | 11-10-2011 |
20130193805 | HIGH FREQUENCY PIEZOCOMPOSITE AND METHODS FOR MANUFACTURING SAME - A transducer with triangular cross-sectional shaped pillars is described for suppressing lateral modes within a composite, and a method for producing the same. According to one aspect of the present application, a plurality of triangular cross-sectional shaped pillars extends outwardly from a substrate and form an array of pillars. The resulting array of pillars is configured to suppress the lateral modes of the transducer at higher operating frequencies, such as, at or above 15 MHz, at or above 20 MHz, or at or above 30 MHz. | 08-01-2013 |
20140073929 | NOSEPIECE CONFIGURED FOR USE WITH ULTRASOUND PROBES - A system for producing an ultrasound image comprises a scan head having a transducer capable of generating ultrasound energy at a frequency of at least 20 megahertz (MHz), and a processor for receiving ultrasound energy and for generating an ultrasound image at a frame rate of at least 15 frames per second (fps). | 03-13-2014 |
20140221842 | System and Method for Frequency Domain Photoacoustic Intravascular Imaging - A photoacoustic device capable of performing both intravascular photoacoustic (“IVPA”) imaging and intravascular ultrasound imaging is provided. The device includes one or more optical fibers coupled to a transducer assembly that includes an photoacoustic transducer and optionally an ultrasound transducer. The one or more optical fibers and photoacoustic transducer are arranged such that the illumination field generated by the one or more optical fibers is co-aligned with the sensitive region of the photoacoustic transducer. When both are present, the photoacoustic transducer and ultrasound transducer are arranged such that ultrasound generated by the ultrasound transducer avoids interfering with the sensitive region of the photoacoustic transducer. Frequency domain imaging may be achieved using an intensity-modulated continuous wave (“CW”) laser coupled to the one or more optical fibers. | 08-07-2014 |
20140336512 | HIGH FREQUENCY, HIGH FRAME-RATE ULTRASOUND IMAGING SYSTEM - A system for producing an ultrasound image comprises a scan head having a transducer capable of generating ultrasound energy at a frequency of at least 20 megahertz (MHz), and a processor for receiving ultrasound energy and for generating an ultrasound image at a frame rate of at least 15 frames per second (fps). | 11-13-2014 |
20140354113 | HIGH FREQUENCY PIEZOCOMPOSITE AND METHODS FOR MANUFACTURING SAME - A transducer with triangular cross-sectional shaped pillars is described for suppressing lateral modes within a composite, and a method for producing the same. According to one aspect of the present application, a plurality of triangular cross-sectional shaped pillars extends outwardly from a substrate and form an array of pillars. The resulting array of pillars is configured to suppress the lateral modes of the transducer at higher operating frequencies, such as, at or above 15 MHz, at or above 20 MHz, or at or above 30 MHz. | 12-04-2014 |
20150148711 | METHOD, SYSTEM AND USE FOR THERAPEUTIC ULTRASOUND - The described embodiments relate to methods, systems and uses for therapeutic ultrasound, and in particular, to methods, systems and uses for therapeutic ultrasound and contact lenses for treating or alleviating eye conditions. The described embodiments relate to methods, systems and uses that involve an ultrasound device configured for treatment of an eye condition and a contact lens protects ocular tissue of the eye and forms a chamber of air. | 05-28-2015 |