Sparse acoustic absorber

What is claimed is: 1. An 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 having a fill factor is less than 0.5, 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 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; and a second neck forming an opening on a second side of the at least one second boundary wall and placing the second chamber portion in fluid communication with the ambient environment; wherein the first side of the at least one first boundary wall and the second side of the at least one second boundary wall are on opposite sides of the unit cell, and the second chamber volume is greater than the first chamber volume. 2. The acoustic absorber as recited in claim 1 , wherein W is less than or equal to 0.5P. 3. The sparse acoustic absorber as recited in claim 1 , wherein W is less than or equal to 0.25P. 4. The acoustic absorber as recited in claim 1 , wherein a length of the first neck is greater than a length of the second neck. 5. The 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. 6. The sparse acoustic absorber as recited in claim 1 , wherein the periodic array of unit cells comprises a two-dimensional array. 7. The sparse acoustic absorber as recited in claim 6 , 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. 8. The sparse acoustic absorber as recited in claim 1 that is configured to absorb acoustic waves at a resonant frequency incident on the absorber from a first direction, and to predominantly reflect acoustic waves at the resonant frequency incident on the absorber from a second direction substantially opposite to the first direction. 9. A dual-function sound suppression system comprising: a substrate that is porous to a surrounding medium, the substrate comprising a continuous solid material having periodic apertures interspersed therein; and a periodic array of unit cells incorporated in the substrate, the 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 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; and a second neck forming an opening on a second side of the at least one second boundary wall and placing the second chamber portion in fluid communication with the ambient environment; wherein the first side of the at least one first boundary wall and the second side of the at least one second boundary wall are on opposite sides of the unit cell, and the second chamber volume is greater than the first chamber volume; and wherein the first neck and the second neck define openings in opposite directions. 10. The system as recited in claim 9 , wherein the substrate is substantially planar, having first and second planar sides. 11. The system as recited in claim 10 , wherein the system predominantly absorbs acoustic waves at or near a resonant frequency when such waves are incident on one of the planar sides, and predominantly reflects acoustic waves at or near the resonant frequency when such waves are incident on the other of the planar sides. 12. The system as recited in claim 9 , wherein the substrate comprises a metal or plastic mesh. 13. The system as recited in claim 9 , wherein W is less than or equal to 0.5P. 14. The system as recited in claim 9 , wherein W is less than or equal to 0.25P. 15. The system as recited in claim 9 , wherein a length of the first neck is greater than a length of the second neck. 16. The system as recited in claim 9 , wherein P is within a range of from about one-quarter to one-half of a resonance wavelength of the absorber. 17. The system as recited in claim 9 , wherein the substrate is characterized by a substrate fill factor that is substantially lower than a fill factor of the periodic array of unit cells. 18. A fan coated with a sound suppression system comprising: a fan configured to move air in response to an electric current; a sound suppression system coating or shielding the fan, the system comprising: a substrate that is porous to a surrounding medium, the substrate comprising a continuous solid material having periodic apertures interspersed therein; and a periodic array of unit cells incorporated in the substrate, the 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 having a fill factor is less than 0.5, 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 neck forming an opening on a first side of thee 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; and a second neck forming an opening on a second side of the at least one second boundary wall and placing the second chamber portion in fluid communication with the ambient environment; wherein the first side of the at least one first boundary wall and the second side of the at least one second boundary wall are on opposite sides of the unit cell, and the second chamber volume is greater than the first chamber volume. 19. The fan as recited in claim 18 , wherein the substrate is substantially planar, having first and second planar sides. 20. A motor vehicle comprising the fan as recited in claim 18 .