Optoacoustic probe with multi-layer coating

What is claimed is: 1. An optoacoustic probe with a coated transducer assembly, the probe comprising: a transducer assembly having an active end, the transducer assembly comprising a plurality of transducer elements in close proximity to, or in contact with, an acoustic lens at the active end of the transducer assembly; a multi-layer coating on the acoustic lens, the multi-layer coating comprising a layer of parylene, and at least two layers of metal, wherein the layer of parylene is in contact with the acoustic lens, a first of the two layers of metal is in contact with the layer of parylene, and a second of the two layers of metal is in contact with the first layer of metal; and a housing having a distal end and housing the transducer assembly and a plurality of other components, at least one of the housing and one or more of the plurality of other components securing the transducer assembly such that the active end of the transducer assembly is at the distal end of the housing. 2. The optoacoustic probe claimed in claim 1 , wherein the multi-layer coating on the active end of the transducer assembly comprises: a layer of nickel, the layer of nickel being one of the at least two layers of metal; and a layer of gold, the layer of gold being one of the at least two layers of metal. 3. The optoacoustic probe claimed in claim 1 , wherein the probe housing further comprises an optical path and optical window in optical communication with the optical path, such that the optical window is at the distal end of the housing. 4. The optoacoustic probe claimed in claim 1 , wherein the acoustic lens comprises silicone. 5. The optoacoustic probe claimed in claim 4 , wherein the acoustic lens further comprises titanium dioxide. 6. The optoacoustic probe claimed in claim 1 , wherein the second of the two layers of metal comprises gold. 7. The optoacoustic probe claimed in claim 6 , further comprising a second layer of parylene in contact with the second layer of metal. 8. An optoacoustic probe with a coated transducer assembly, the probe comprising: a housing having a distal end; a transducer assembly having an active end, the transducer assembly comprising a plurality of transducer elements and an acoustic lens secured at the distal end of the housing in close proximity to, or in contact with the active end of the transducer assembly, wherein the acoustic lens comprises silicone rubber; an optical path and an optical window through which light carried on the optical path can be transmitted, the optical window being secured at the distal end of the housing; a multi-layer coating on the acoustic lens, wherein the acoustic lens is first coated with parylene, then coated with nickel, and then coated with gold. 9. An optoacoustic probe comprising an acoustic lens, wherein the acoustic lens comprises a multi-layer coating, the multi-layer coating comprising a layer of parylene, and at least two layers of metal, wherein the layer of parylene is in contact with the acoustic lens, a first of the two layers of metal is in contact with the layer of parylene, and a second of the two layers of metal is in contact with the first layer of metal. 10. The optoacoustic probe claimed in claim 9 , wherein the multi-layer coating comprises: a layer of nickel, the layer of nickel being one of the at least two layers of metal; and a layer of gold, the layer of gold being one of the at least two layers of metal.