Ultrasonic transducer with suppressed lateral mode

What is claimed is: 1. An ultrasonic transducer, comprising: a transducer body, wherein the transducer body comprises: a first face disposed on the transducer body; a second face disposed on an opposite side of the transducer body from the first face; a first radial section and a second radial section defined at a perimeter of the transducer body; and a piezoelectric material; a first transducer edge disposed on the transducer body; a second transducer edge disposed on the transducer body, wherein the first edge is disposed on the transducer body substantially opposite from the second edge, and wherein the first transducer edge and the second transducer edge intersect the perimeter of the transducer body, and wherein the first transducer edge and the second transducer edge form an angle no less than 3 degrees; and wherein the first transducer edge and the second transducer edge are slanted towards each other such that the transducer body has a variable width defined between the first transducer edge and the second transducer edge, and wherein a first radial section length of the first radial section is shorter than a second radial section length of the second radial section. 2. The ultrasonic transducer of claim 1 , further comprising a third transducer edge disposed on the transducer body, wherein the third transducer edge intersects the perimeter of the transducer body. 3. The ultrasonic transducer of claim 1 , further comprising a third transducer edge disposed on the transducer body and a fourth transducer edge disposed on the transducer body, wherein the third transducer edge and the fourth transducer edge are separated by an angle no less than 3 degrees. 4. The ultrasonic transducer of claim 1 , wherein the transducer body comprises Lead Zirconate Titanate. 5. The ultrasonic transducer of claim 1 , wherein the transducer body comprises a generally cylindrical geometry and the perimeter of the transducer body comprises a circumference. 6. The ultrasonic transducer of claim 1 , further comprising a first electrode connected to the first face and a second electrode connected to the second face. 7. The ultrasonic transducer of claim 6 , wherein the transducer body exhibits a suppressed lateral mode when excited by the first electrode and the second electrode. 8. A method of producing an ultrasonic transducer, comprising: providing a transducer body, wherein the transducer body comprises: a first face disposed on the transducer body; a second face disposed on an opposite side of the transducer body from the first face; and a first radial section and a second radial section defined at a perimeter of the transducer body; forming a first edge disposed on the transducer body and intersecting the perimeter of the transducer body; forming a second edge disposed on the transducer body and intersecting the perimeter of the transducer body, wherein the first edge and the second edge form an angle no less than 3 degrees; and slanting the first edge and the second edge towards each other such that the transducer body has a variable width defined between the first edge and the second edge, and wherein a first radial section length of the first radial section is shorter than a second radial section length of the second radial section. 9. The method of claim 8 , wherein the transducer body comprises a generally cylindrical geometry. 10. The method of claim 8 , wherein the transducer body comprises Lead Zirconate Titanate. 11. The method of claim 8 , further comprising forming a third edge disposed on the transducer body. 12. The method of claim 8 , further comprising forming a third edge disposed on the transducer body and forming a fourth edge disposed on the transducer body. 13. The method of claim 12 , wherein the third edge and the fourth edge are separated by an angle no less than 3 degrees. 14. The method of claim 8 , wherein forming the first edge further comprises removing a first portion of the transducer body, and forming the second edge further comprises removing a second portion of the transducer body. 15. The method of claim 8 , wherein forming the first edge further comprises molding the first edge into the transducer body, and forming the second edge further comprises molding the second edge into the transducer body. 16. A method of ultrasonic imaging a formation, comprising: providing a transducer, comprising: a transducer body comprising a piezoelectric material, wherein the transducer body comprises: a first face disposed on the transducer body; a second face disposed on an opposite side of the transducer body from the first face; a first radial section and a second radial section defined at a perimeter of the transducer body; a first transducer edge disposed on the transducer body and intersecting the perimeter of the transducer body; and a second transducer edge disposed on the transducer body and intersecting the perimeter of the transducer body, wherein the first transducer edge and the second transducer edge form an angle no less than 3 degrees, wherein the first transducer edge and the second transducer edge are slanted towards each other such that the transducer body has a variable width defined between the first transducer edge and the second transducer edge, and wherein a first radial section length of the first radial section is shorter than a second radial section length of the second radial section; exciting the transducer with a first electrode connected to the first face and a second electrode connected to the second face; causing the transducer to emit ultrasound waves into an environment; receiving ultrasound waves reflected back from the environment; and determining a characteristic of the environment based on the received ultrasound waves. 17. The method of claim 16 , wherein the transducer further comprises a third transducer edge disposed on the transducer body. 18. The method of claim 16 , wherein the transducer further comprises a third transducer edge and a fourth transducer edge disposed on the transducer body, wherein the third transducer edge and the fourth transducer edge are separated by an angle no less than 3 degrees. 19. The method of claim 16 , wherein exciting the transducer further comprises suppressing lateral mode of the transducer. 20. The method of claim 16 , wherein the transducer body comprises Lead Zirconate Titanate.