Electroacoustic transducer array

The invention claimed is: 1. An electroacoustic transducer array configured for use in a liquid transmission medium, the electroacoustic transducer array comprising: a first electroacoustic transducer comprising a first active element; a second electroacoustic transducer comprising a second active element; an acoustic coupling layer arranged to acoustically couple, in use, the first active element and the second active element to a liquid transmission medium, the acoustic coupling layer having a porous structure; and the first active element spaced from the acoustic coupling layer by a first cavity arranged between the first active element and the acoustic coupling layer, wherein the first cavity is in fluid communication with the liquid transmission medium via the porous structure, in use; and the second active element spaced from the acoustic coupling layer by a second cavity arranged between the second active element and the acoustic coupling layer, wherein the second cavity is distinct from the first cavity and the second cavity is in fluid communication with the liquid transmission medium via the porous structure, in use; wherein, during use, the first cavity and the second cavity contains part of the liquid transmission medium, and wherein the liquid transmission medium provides a fluid reservoir to the first cavity and the second cavity. 2. The transducer array according to claim 1 , wherein the acoustic coupling layer comprises an acoustic meta-material. 3. The transducer array according to claim 1 , wherein an acoustic impedance of the acoustic coupling layer changes in a longitudinal direction away from the first cavity and/or the second cavity. 4. The transducer array according to claim 1 , wherein a thickness of the acoustic coupling layer corresponds to (2n+1)∧/4 where ∧ is the acoustic wavelength within the acoustic coupling layer, and n is either 0 or a positive integer. 5. The transducer array according to claim 1 , wherein a thickness of the acoustic coupling layer corresponds to (n+1)∧/2 where ∧ is the acoustic wavelength within the acoustic coupling layer, and n is either 0 or a positive integer. 6. The transducer array according to claim 1 , wherein a thickness of the acoustic coupling layer corresponds to m∧ where ∧ is the acoustic wavelength within the transmission medium and/or within the acoustic coupling layer and m is a positive real number greater than 0.9. 7. The transducer array according to claim 1 , wherein a porosity of the porous structure is in a range from about 5% to about 90% by volume of the porous structure. 8. The transducer array according to claim 7 , wherein the porosity increases in a direction moving away from the first cavity and/or the second cavity. 9. The transducer array according to claim 1 , wherein the acoustic coupling layer comprises a plurality of acoustic coupling members. 10. The transducer array according to claim 9 , wherein the acoustic coupling members taper in the longitudinal direction. 11. The transducer array according to claim 1 , wherein the acoustic coupling layer comprises an encapsulant. 12. The transducer array according to claim 1 , comprising an array housing arranged to house the first electroacoustic transducer and the second electroacoustic transducer and wherein the acoustic coupling layer is arranged to extend across at least a part of a surface of the array housing. 13. The transducer array according to claim 12 , wherein the acoustic coupling layer is arranged to contact at least the part of the surface of the housing. 14. The transducer array according to claim 1 , wherein the first transducer and/or the second transducer is a Tonpilz transducer. 15. The transducer array according to claim 11 , wherein the encapsulant is an elastomeric material. 16. An electroacoustic transducer array comprising: one or more active elements; an acoustic coupling layer arranged to acoustically couple, in use, at least some of the one or more active elements to a liquid transmission medium, wherein the acoustic coupling layer comprises an acoustic meta-material having pores, voids and/or spacings; at least one of the one or more active elements is spaced from the acoustic coupling layer by a cavity arranged between the at least some of the one or more active elements and the acoustic coupling layer, wherein the cavity is in fluid communication with the liquid transmission medium via the pores, voids, and/or spacings, and wherein the cavity contains part of the liquid transmission medium, in use; and an array housing arranged to house the one or more active elements and wherein the acoustic coupling layer is arranged to extend across at least a part of a surface of the array housing. 17. The transducer array according to claim 16 , wherein a porosity of the acoustic meta-material increases in a direction moving away from the cavity. 18. The transducer array according to claim 16 , wherein the acoustic meta-material comprises open pores. 19. The transducer array according to claim 16 , wherein the electroacoustic transducer has a centre frequency from 1 kHz to 80 kHz in water. 20. An electroacoustic transducer array for use in a liquid transmission medium, comprising: one or more active elements; an acoustic coupling layer arranged to acoustically couple, in use, the one or more active elements to a liquid transmission medium, wherein the acoustic coupling layer comprises an acoustic meta-material having pores, voids, and/or spacings; the one or more active elements spaced from the acoustic coupling layer by a cavity arranged between at least one of the one or more active elements and the acoustic coupling layer, wherein the cavity is in fluid communication with the liquid transmission medium via the pores, voids, and/or spacings, and wherein the cavity contains part of the liquid transmission medium, in use; and wherein the transmission medium provides a fluid reservoir to the cavity.