Broadband sparse acoustic absorber

What is claimed is: 1. A broadband sparse acoustic absorber comprising a periodic array of laterally spaced-apart, two-sided Helmholtz resonators, the periodic array comprising: a plurality of unit cells spaced apart by a lateral midpoint-to-midpoint distance P, each unit cell having a maximum lateral dimension W, wherein P is greater than W, and each unit cell comprising: a first Helmholtz resonator having: a first chamber portion bounded by at least one first boundary wall defining a first chamber volume; and a longitudinal neck forming an opening on a first side of the at least one first boundary wall and placing the first chamber portion in fluid communication with an ambient environment; and a second Helmholtz resonator having: a second chamber portion bounded by at least one second boundary wall defining a second chamber volume equal to the first chamber volume; and a lateral neck forming an opening on a second side of the at least one second boundary wall, the second side being substantially perpendicular to the first side, and placing the second chamber portion in fluid communication with the ambient environment. 2. The broadband sparse acoustic absorber as recited in claim 1 , comprising an acoustically absorbing medium covering the longitudinal neck of each unit cell. 3. The broadband sparse acoustic absorber as recited in claim 1 , comprising an acoustically absorbing medium covering the longitudinal neck, and contiguously filling the longitudinal neck and a fraction of the first chamber portion of each unit cell. 4. The broadband acoustic absorber as recited in claim 3 , wherein the acoustically absorbing medium comprises a melamine or polyurethane foam. 5. The broadband sparse acoustic absorber as recited in claim 1 , wherein W is less than or equal to 0.25 P. 6. The broadband sparse acoustic absorber as recited in claim 1 , wherein P is within a range of from about one-quarter to one-half of a resonance wavelength of the absorber. 7. The broadband sparse acoustic absorber as recited in claim 1 , wherein the periodic array of unit cells comprises a two-dimensional array. 8. The broadband sparse acoustic absorber as recited in claim 7 , wherein the two-dimensional array comprises: unit cells spaced apart by an equivalent lateral midpoint-to-midpoint distance, P, in the first and second dimensions; wherein each unit cell has an equivalent maximum lateral dimension W, in each of the two dimensions. 9. A layered broadband sparse acoustic absorber comprising a periodic array of laterally spaced-apart, two-sided Helmholtz resonators, the periodic array comprising: a first plurality of unit cells spaced apart by a lateral midpoint-to-midpoint distance P, each unit cell having a maximum lateral dimension W, wherein P is greater than W, and each unit cell comprising: a first Helmholtz resonator having: a first chamber portion bounded by at least one first boundary wall defining a first chamber volume; and a first longitudinal neck forming an opening on a first side of the at least one first boundary wall and placing the first chamber portion in fluid communication with an ambient environment; and a second Helmholtz resonator having: a second chamber portion bounded by at least one second boundary wall defining a second chamber volume equal to the first chamber volume; and a first lateral neck forming an opening on a second side of the at least one second boundary wall, the second side being substantially perpendicular to the first side, and placing the second chamber portion in fluid communication with the ambient environment a second plurality of unit cells, layered relative to the first plurality, and spaced apart by the lateral midpoint-to-midpoint distance P, each unit cell having the maximum lateral dimension W, and each unit cell of the second plurality comprising: a third Helmholtz resonator having: a third chamber portion bounded by at least one first boundary wall defining a third chamber volume; and a second longitudinal neck forming an opening on a third side of the at least one third boundary wall and placing the third chamber portion in fluid communication with an ambient environment; and a fourth Helmholtz resonator having: a fourth chamber portion bounded by at least one fourth boundary wall defining a fourth chamber volume equal to the third chamber volume; and a second lateral neck forming an opening on a fourth side of the at least one fourth boundary wall, the fourth side being substantially perpendicular to the third side, and placing the fourth chamber portion in fluid communication with the ambient environment. 10. The layered broadband sparse acoustic absorber as recited in claim 9 , wherein the first and third chamber volumes are different. 11. The layered broadband sparse acoustic absorber as recited in claim 9 , comprising an acoustically absorbing medium covering the first and second longitudinal neck of each unit cell in the first and second plurality. 12. The layered broadband sparse acoustic absorber as recited in claim 9 , comprising an acoustically absorbing medium covering the first and second longitudinal neck, and contiguously filling the first and second longitudinal neck and a fraction of the first and third chamber portion of each unit cell in the first and second plurality. 13. The layered broadband acoustic absorber as recited in claim 12 , wherein the acoustically absorbing medium comprises a melamine or polyurethane foam. 14. The layered broadband sparse acoustic absorber as recited in claim 9 , wherein the first longitudinal neck and the first lateral neck are separated by a first longitudinal distance, and the second longitudinal neck and the second lateral neck are separated by a second longitudinal distance that differs from the first longitudinal distance. 15. A sound suppression system comprising: a sound emitting device; one or more broadband sparse acoustic absorbers at least partially surrounding the sound emitting device, each of the one or more broadband sparse acoustic absorbers comprising: a plurality of unit cells spaced apart by a lateral midpoint-to-midpoint distance P, each unit cell having a maximum lateral dimension W, wherein P is greater than W, and each unit cell comprising: a first Helmholtz resonator having: a first chamber portion bounded by at least one first boundary wall defining a first chamber volume; and a longitudinal neck forming an opening on a first side of the at least one first boundary wall and placing the first chamber portion in fluid communication with an ambient environment; and a second Helmholtz resonator having: a second chamber portion bounded by at least one second boundary wall defining a second chamber volume equal to the first chamber volume; and a lateral neck forming an opening on a second side of the at least one second boundary wall, the second side being substantially perpendicular to the first side, and placing the second chamber portion in fluid communication with the ambient environment. 16. The system as recited in claim 15 , wherein the sound emitting device comprises an internal combustion engine. 17. The system as recited in claim 15 , comprising an acoustically absorbing medium covering the longitudinal neck of each unit cell. 18. The system as recited in claim 15 , comprising an acoustically absorbing medium covering the longitudinal neck, and contiguously filling the longitudinal neck and a fraction of the first chamber portion of each unit cell. 19. The system as recited i