Invisible sound barrier

What is claimed is: 1. An invisible sound barrier comprising a one-dimensional periodic array 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 hollow columnar structure formed of a solid sound reflecting material and having a cross-sectional shape defining an equilateral parallelogram with an outer dimension and a first internal chamber portion of a first volume; and a first neck forming an opening on a first side of the first Helmholtz resonator and placing the first internal chamber portion in fluid communication with an ambient environment; and a second Helmholtz resonator having: a hollow columnar structure formed of a solid sound reflecting material and having a cross-sectional shape defining an equilateral parallelogram with an outer dimension identical to that of the first Helmholtz resonator and a second internal chamber portion of a volume greater than the first volume; and a second neck, forming an opening on a second side of the second Helmholtz resonator that is opposite the first side of the first Helmholtz resonator, and placing the second internal chamber portion in fluid communication with the ambient environment; and a light reflecting material coating outer surfaces of the first and second Helmholtz resonators. 2. The invisible sound barrier as recited in claim 1 , wherein each of the first and second Helmholtz resonators comprises: two longitudinal vertices having an angle, θ, and positioned along a longitudinal axis perpendicular to a direction of periodicity of the one dimensional periodic array; and two lateral vertices having an angle 2θ, and positioned along a lateral axis perpendicular to a direction of periodicity of the one dimensional periodic array. 3. The invisible sound barrier as recited in claim 1 , wherein W is less than or equal to 0.5 P. 4. The invisible sound barrier as recited in claim 1 , wherein W is less than or equal to 0.25 P. 5. The invisible sound barrier as recited in claim 1 , wherein a length of the first neck is greater than a length of the second neck. 6. The invisible sound barrier as recited in claim 1 , wherein P is within a range of from about one-quarter of the resonance wavelength of the barrier to about the resonance wavelength of the barrier. 7. An invisible sound barrier comprising a one-dimensional periodic array 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 or equal to W, and each unit cell comprising: a first Helmholtz resonator having: a hollow columnar structure formed of a solid light reflecting material and having a cross-sectional shape defining an equilateral parallelogram with an outer dimension and a first internal chamber portion of a first volume; and a first neck forming an opening on a first side of the first Helmholtz resonator and placing the first internal chamber portion in fluid communication with an ambient environment; and a second Helmholtz resonator having: a hollow columnar structure formed of a solid light reflecting material and having a cross-sectional shape defining an equilateral parallelogram with an outer dimension identical to that of the first Helmholtz resonator and a second internal chamber portion of a volume greater than the first volume; and a second neck, forming an opening on a second side of the second Helmholtz resonator that is opposite the first side of the first Helmholtz resonator, and placing the second internal chamber portion in fluid communication with the ambient environment; and first and second planar mirrors spaced laterally apart from the first and second Helmholtz resonators in a direction of periodicity of the one-dimensional periodic array; and a solid material, transparent to light, filling a volume between: the first and second Helmholtz resonators; and the first and second planar mirrors. 8. The invisible sound barrier as recited in claim 7 , wherein each of the first and second Helmholtz resonators comprises: two longitudinal vertices having an angle, θ, and positioned along a longitudinal axis perpendicular to a direction of periodicity of the one dimensional periodic array; and two lateral vertices having an angle (180°−θ), and positioned along a lateral axis perpendicular to a direction of periodicity of the one dimensional periodic array. 9. The invisible sound barrier as recited in claim 8 , wherein each of the first and second planar mirrors is perpendicular to the direction of periodicity of the one-dimensional periodic array. 10. The invisible sound barrier as recited in claim 7 , wherein the solid material, transparent to light, comprises glass. 11. The invisible sound barrier as recited in claim 8 , wherein the solid material, transparent to light, comprises a transparent plastic. 12. The invisible sound barrier as recited in claim 7 , wherein W is less than or equal to 0.5 P. 13. The invisible sound barrier as recited in claim 7 , wherein W is less than or equal to 0.25 P. 14. The invisible sound barrier as recited in claim 7 , wherein a length of the first neck is greater than a length of the second neck. 15. The invisible sound barrier as recited in claim 7 , wherein P is within a range of from about one-quarter one-quarter of the resonance wavelength of the barrier to about the resonance wavelength of the barrier. 16. A roadside sound barrier comprising: a one-dimensional periodic array 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 hollow columnar structure formed of a solid sound reflecting material and having a cross-sectional shape defining an equilateral parallelogram with an outer dimension and a first internal chamber portion of a first volume; and a first neck forming an opening on a first side of the first Helmholtz resonator and placing the first internal chamber portion in fluid communication with an ambient environment; and a second Helmholtz resonator having: a hollow columnar structure formed of a solid sound reflecting material and having a cross-sectional shape defining an equilateral parallelogram with an outer dimension identical to that of the first Helmholtz resonator and a second internal chamber portion of a volume greater than the first volume; and a second neck, forming an opening on a second side of the second Helmholtz resonator that is opposite the first side of the first Helmholtz resonator, and placing the second internal chamber portion in fluid communication with the ambient environment; and a light reflecting material coating outer surfaces of the first and second Helmholtz resonators. 17. The roadside sound barrier as recited in claim 16 , wherein each of the first and second Helmholtz resonators comprises: two longitudinal vertices having an angle, θ, and positioned along a longitudinal axis perpendicular to a direction of periodicity of the one dimensional periodic array; and two lateral vertices having an angle (180°−θ), and positioned along a lateral axis perpendicular to a direction of periodicity of the one dimensional periodic array.