Dual frequency plane wave ultrasound imaging system

We claim: 1. A dual frequency ultrasound imaging system, comprising: a high frequency transducer array configured to transmit ultrasound into an imaging region and to receive high frequency ultrasound echo signals from the imaging region; one or more low frequency transducer arrays configured to transmit unfocused ultrasound plane waves into the imaging region of the high frequency transducer array to insonify contrast agent in the imaging region such that the plane waves of each of the one or more low frequency transducers intersect at an angle with the imaging region, wherein the plane waves are interleaved with ultrasound transmitted and received by the high frequency transducer array such that echo signals transmitted by the high frequency transducer do not interfere with echo signals transmitted by the low frequency transducer; and signal processing circuitry for: processing high frequency ultrasound echo signals from tissue created in response to high frequency ultrasound signals transmitted by the high frequency transducer array; creating a tissue image from the high frequency ultrasound echo signals received from tissue; processing high frequency ultrasound echo signals created in response to the contrast agent being insonified by the unfocused ultrasound from the one or more low frequency transducer arrays; creating a contrast agent image from the processed high frequency ultrasound echo signals created in response to the contrast agent; and creating a combined tissue/contrast agent image with data from the tissue image and the contrast agent image. 2. The dual frequency ultrasound imaging system of claim 1 , wherein the one or more low frequency transducer arrays are configured to transmit plane waves at multiple angles and the contrast agent image is created from spatio-temporally beamformed echo signals combined with radio frequency echo data. 3. The dual frequency ultrasound imaging system of claim 1 , wherein the high frequency transducer array is configured to transmit plane waves at multiple angles into the imaging region. 4. The dual frequency ultrasound imaging system of claim 3 , wherein the tissue image is created from spatio-temporally beamformed echo signals combined with radio frequency echo data from the high frequency ultrasound transmitter. 5. The dual frequency ultrasound imaging system of claim 1 , wherein the combined tissue/contrast agent image is created using one of alpha blending and pixel substitution. 6. A dual frequency transducer comprising: a high frequency central array that is configured to be used as a receiver and one or more flanking low frequency transducer arrays configured to transmit unfocused low frequency ultrasound signals which intersect at an angle with an imaging region of the high frequency central array to insonify contrast agent in a region of interest, wherein the high frequency central array is positioned to receive echo signals from the contrast agent excited by the unfocused ultrasound signals from the one or more low frequency transducer arrays, and the one or more flanking low frequency transducer arrays are configured to transmit unfocused ultrasound signals that are interleaved with ultrasound transmitted and received by the high frequency transducer array such that echo signals transmitted by the high frequency transducer do not interfere with echo signals transmitted by the low frequency transducer. 7. The dual frequency transducer of claim 6 , wherein the one or more flanking low frequency transducer arrays are configured to transmit plane waves at multiple angles and the contrast agent image is created from spatio-temporally beamformed echo signals combined with radio frequency echo data. 8. The dual frequency transducer of claim 6 , wherein the high frequency transducer array is configured to transmit plane waves at multiple angles into the imaging region. 9. The dual frequency ultrasound imaging system of claim 6 , wherein the one or more flanking low frequency transducer arrays transmit plane waves. 10. A dual frequency ultrasound imaging system, comprising: a high frequency transducer array; one or more low frequency transducer arrays configured to transmit ultrasound plane waves that intersect at an angle with an imaging region of the high frequency transducer array, wherein the plane waves are interleaved with ultrasound transmitted and received by the high frequency transducer array such that echo signals transmitted by the high frequency transducer do not interfere with echo signals transmitted by the low frequency transducer; signal processing circuitry for: controlling the high frequency transducer array or the one or more low frequency transducer arrays to transmit unfocused ultrasound signals into a focal region to insonify contrast agent in the imaging region; controlling the other of the one or more low frequency transducer arrays or the high frequency transducer array to receive echo signals from the insonified contrast agent; producing a contrast agent image from the echo signals from the insonified contrast agent; producing a tissue image from echo signals received from tissue in the imaging region; and producing a combined tissue/contrast agent image from the contrast agent image and the tissue image. 11. The dual frequency ultrasound imaging system of claim 10 , wherein the tissue image is created from ultrasound transmitted and received by the high frequency transducer array. 12. The dual frequency ultrasound imaging system of claim 10 , wherein the tissue image is created from ultrasound transmitted and received by the one or more low frequency transducer arrays. 13. The dual frequency ultrasound imaging system of claim 10 , wherein the unfocused ultrasound is transmitted by the one or more low frequency transducer arrays and the contrast agent image is created from high frequency ultrasound array echoes received by the high frequency transducer array. 14. The dual frequency ultrasound imaging system of claim 10 , wherein the unfocused ultrasound is transmitted by the high frequency transducer array and the contrast agent image is created from low frequency ultrasound echoes received by the one or more low frequency transducer arrays. 15. The dual frequency ultrasound imaging system of claim 10 , wherein the unfocused ultrasound are planewaves. 16. The dual frequency ultrasound imaging system of claim 10 , wherein the unfocused ultrasound are spherical waves. 17. The dual frequency ultrasound imaging system of claim 10 , wherein the high frequency central array transmits unfocused ultrasound signals. 18. The dual frequency ultrasound imaging system of claim 17 , wherein the unfocused ultrasound are planewaves. 19. The dual frequency ultrasound imaging system of claim 17 , wherein the unfocused ultrasound are spherical waves. 20. The dual frequency ultrasound imaging system of claim 10 , wherein the combined tissue/contrast agent image is produced using one of alpha blending and pixel substitution.