Methods for forming an invasive deployable transducer using shape memory polymer

The invention claimed is: 1. A method for forming a transducer, comprising: forming a shape memory polymer (SMP) from a powder mixture of silicon and tungsten that is mixed into a matrix of an acrylic resin; exposing the SMP to a straightening stimulus to adjust the SMP to a planar configuration; coupling a first acoustic stack and a second acoustic stack to opposites ends of the SMP, while in the planar configuration to form the transducer; and exposing the SMP to a curling stimulus to adjust the SMP to a curved configuration and the transducer to a folded configuration; wherein the straightening stimulus includes a physical stimulus or a chemical stimulus; wherein the curling stimulus is a stimulus that the transducer is not exposed to within a patient; and wherein the straightening stimulus is of a different type than the curling stimulus. 2. The method of claim 1 , wherein the planar configuration is a temporary configuration and the curved configuration is a permanent configuration of the SMP. 3. The method of claim 1 , wherein acoustic properties of the SMP are varied according to a loading of the powder mixture of silicone and tungsten, and wherein the acoustic properties include acoustic attenuation and acoustic impedance. 4. The method of claim 1 , wherein a threshold of the straightening stimulus, above which straightening of the SMP is activated, is above a range of the straightening stimulus imposed on the SMP upon insertion into a patient during data acquisition by the transducer. 5. The method of claim 1 , wherein transitioning the SMP from the curved configuration to the planar configuration includes decreasing a rigidity of the SMP to enable transition from the curved configuration to the planar configuration and restoring the rigidity of the SMP when in the planar configuration, and wherein returning the SMP from the planar configuration to the curved configuration includes decreasing the rigidity of the SMP to enable curling of the SMP and restoring the rigidity of the SMP when in the curved configuration. 6. The method of claim 1 , wherein forming the transducer includes dicing a plurality of kerfs into the transducer while the SMP is in the planar configuration. 7. The method of claim 1 , wherein the physical stimulus includes at least one of temperature, moisture, light, magnetic energy, or electricity. 8. The method of claim 1 , wherein the chemical stimulus includes at least one of chemicals or pH level. 9. A transducer for a deployable catheter, comprising: an acoustic stack coupled to a shape memory polymer (SMP), the SMP configured to transition between a first configuration in response to a first stimulus and a second configuration in response to a second stimulus, the second stimulus being of a different type than the first stimulus, wherein the first stimulus includes a physical stimulus or a chemical stimulus, wherein the second stimulus is a stimulus that the transducer is not exposed to within a patient, and wherein the SMP is formed of a powder mixture of silicone and tungsten that is mixed into a matrix of an acrylic resin, wherein the acoustic stack is divided into a first array and a second array and the SMP is arranged between the first array and the second array, each of opposite ends of the SMP being coupled to an inner edge of the first array and the second array, respectively. 10. The transducer of claim 9 , wherein the first configuration is any of a folded, convex, concave, spiral, and circular geometry, and wherein the second configuration is planar. 11. The transducer of claim 9 , wherein the powder mixture of silicone and tungsten is mixed into a matrix of an acrylic resin. 12. The transducer of claim 10 , further comprising a plurality of kerfs diced into the transducer while the SMP is planar. 13. The transducer of claim 9 , wherein the transducer has a plurality of layers including one or more of transducer elements, a matching layer, an electrical circuit, and a backing layer. 14. The transducer of claim 9 , wherein the transducer is a radial transducer with a field of view up to 360°. 15. A method for fabricating a transducer, comprising: adjusting a shape memory polymer (SMP) to a planar configuration by exposing the SMP to a first stimulus, wherein the first stimulus includes a physical stimulus or a chemical stimulus; laminating transducer components to the SMP while in the planar configuration; dicing the transducer components; and adjusting the SMP to a curved configuration by exposing the SMP to a second stimulus to form the transducer with a wide field of view, wherein the second stimulus is a stimulus that the transducer is not exposed to within a patient, and wherein the second stimulus is different from the first stimulus, wherein the transducer is divided into a first array and a second array, and the SMP is arranged between the first array and the second array, each of opposite ends of the SMP being coupled to an inner edge of the first array and the second array, respectively, and wherein the SMP is formed of a powder mixture of silicone and tungsten that is mixed into a matrix of an acrylic resin. 16. The method of claim 15 , wherein adjusting the SMP to the curved configuration includes adjusting the SMP to any of a circular, folded, spiral, convex, and concave conformation. 17. The method of claim 15 , wherein adjusting the SMP to the curved configuration includes transitioning the transducer to a geometry with a folded configuration enabling the transducer to be enclosed within a deployable catheter.