High frequency ultrasound transducer

I/We claim: 1 . A phased-array ultrasound transducer, comprising: a sheet of piezoelectric material having a coefficient of thermal expansion; a frame surrounding an outer perimeter of the sheet of piezoelectric material, where the frame has a coefficient of thermal expansion that is similar to the coefficient of thermal expansion of the piezoelectric material; a filling material between the frame and an outer perimeter of the sheet of piezoelectric material, wherein the sheet of piezoelectric material includes a number of kerf cuts that define a number of individual transducer elements; and a lens secured to the sheet of piezoelectric material through one or more matching layers, wherein the lens and the one or more matching layers include filled kerf cuts that are aligned with the kerf cuts in the piezoelectric material such that a speed of sound in the lens in a direction normal to a front surface of the lens is greater than the speed of sound in the lens in a direction parallel with the front surface of the lens. 2 . The ultrasound transducer of claim 1 , wherein the lens is made of polybenzimidazole. 3 . The ultrasound transducer of claim 2 , further comprising one or more matching layers on a front surface of the lens. 4 . The ultrasound transducer of claim 3 , wherein the kerf cuts in the one or more matching layers between the lens and the piezoelectric material extend through the one or more matching layers on the front surface of the lens. 5 . The ultrasound transducer of claim 4 , wherein the lens and one or more matching layers on the front surface of the lens are radiused to define a focal length for the ultrasound transducer. 6 . An ultrasound transducer, comprising: a piezoelectric material having a coefficient of thermal expansion; a frame surrounding an outer perimeter of the piezoelectric material, where the frame has a coefficient of thermal expansion that is similar to a coefficient of thermal expansion of the piezoelectric material; a filling material placed between the frame and an outer perimeter of the piezoelectric material; wherein the piezoelectric material includes a number of kerf cuts that define a number of individual transducer elements; and a lens secured to the piezoelectric material through one or more matching layers. 7 . The ultrasound transducer of claim 6 , wherein the transducer elements extend for a width of the piezoelectric material such that the transducers elements have a first end and a second end engaging the filling material between the piezoelectric material and the frame. 8 . The ultrasound transducer of claim 6 , wherein the frame is made of alumina. 9 . The ultrasound transducer of claim 6 , wherein the frame is made of graphite. 10 . The ultrasound transducer of claim 6 , wherein the frame is made of molybdenum. 11 . The ultrasound transducer of claim 6 , wherein the frame is conductive and includes one or more spacing elements that maintain a gap between the transducer elements in the piezoelectric material and an inner edge of the frame in the area of the transducer elements. 12 . The ultrasound transducer of claim 6 , wherein the frame is non-conductive and includes one or more vias extending through the frame to form a conductive path from a common electrode on a distal side of the transducer elements to a proximal side of the transducer. 13 . The ultrasound transducer of claim 6 , wherein the lens includes a number of kerf cuts that align with the kerf cuts defining individual transducer elements in the piezoelectric material, and wherein a speed of sound in the lens is greater in a direction normal to a front face of the lens than in a direction parallel to the front face of the lens. 14 . The ultrasound transducer of claim 13 , wherein the kerf cuts in the lens are filled with silicone. 15 . The ultrasound transducer of claim 19 , further comprising one or more matching layers on the lens that include kerf cuts that align with the kerf cuts that define the individual transducer elements in the piezoelectric material. 16 . An ultrasound transducer, comprising: a piezoelectric material including a number of kerf cuts that define a number of individual transducer elements; and a lens secured to the piezoelectric material through one or more matching layers, wherein the one or more matching layers include an uppermost matching layer that joins to the lens and wherein the uppermost matching layer includes a number of ridges on an outer surface thereof that support the lens across the outer surface of the matching layer. 17 . The ultrasound transducer of claim 16 , wherein the ridges in the uppermost matching layer are formed between filled kerf cuts in the uppermost matching layer. 18 . The ultrasound transducer of claim 16 , wherein the uppermost matching layer is formed with an epoxy, and wherein the lens is bonded to the uppermost matching layer with the same epoxy. 19 . The ultrasound transducer of claim 16 , wherein the lens is made of polybenzimidazole 20 . The ultrasound transducer of claim 16 , wherein the lens includes a number of kerf cuts that are aligned with kerf cuts in the one or more matching layers and the kerf cuts in the piezoelectric material.