Acoustic liners with low-frequency sound wave attenuating features

What is claimed is: 1. An acoustic core, comprising: an array of resonant cells, the array of resonant cells comprising: a plurality of coupled resonant cells, respective ones of the plurality of coupled resonant cells defining an antecedent resonant space and a subsequent resonant space and comprising at least one cell wall having one or more wall-apertures defining a pathway between the antecedent resonant space and the subsequent resonant space; and a plurality of high-frequency resonant cells respectively defining a high-frequency resonant space, respective ones of the plurality of high-frequency resonant cells being matched with respective ones of the plurality of coupled resonant cells. 2. The acoustic core of claim 1 , wherein a cross-sectional dimension of the one or more wall-apertures defining the pathway between the antecedent resonant space and the subsequent resonant space is less than a cross-sectional dimension of the antecedent resonant space and/or a cross-sectional dimension of the subsequent resonant space, the cross-sectional dimension of the antecedent resonant space and/or the cross-sectional dimension of the subsequent resonant space determined adjacent to the one or more wall-apertures. 3. The acoustic core of claim 1 , wherein the plurality of coupled resonant cells and/or the plurality of high-frequency resonant cells comprise a plurality of oblique resonant cells. 4. The acoustic core of claim 1 , wherein respective ones of the plurality of coupled resonant cells have an aperture reduction factor of from 0.2 to less than 1.0, the aperture reduction factor relating the cross-sectional dimension of the one or more wall-apertures to the cross-sectional dimension of the antecedent resonant space and/or the cross-sectional dimension of the subsequent resonant space according to the relationship: a=c(1-β), where β is the aperture reduction factor, “a” is the cross-sectional dimension of the one or more wall-apertures, and “c” is the cross-sectional dimension of the antecedent resonant space and/or the cross-sectional dimension of the subsequent resonant space. 5. The acoustic core of claim 1 , comprising: a plurality of partitioned resonant cells, respective ones of the plurality of partitioned resonant cells comprising a partition integrally formed with at least one of the corresponding one or more cell walls and transecting the corresponding resonant space with at least one surface of the partition having an interface angle that is oblique or perpendicular relative to a plane parallel to a top face and/or a bottom face of the array of resonant cells. 6. The acoustic core of claim 5 , wherein the subsequent resonant space of at least some of the plurality of coupled resonant cells defines a lower resonant space of at least some of the plurality of partitioned resonant cells, and/or wherein at least some of the high-frequency resonant cells define an upper resonant space of at least some of the plurality of partitioned resonant cells. 7. The acoustic core of claim 5 , comprising, a plurality of intermediate-frequency resonant cells respectively defining an intermediate-frequency resonant space, respective ones of the plurality of intermediate-frequency resonant cells being matched with respective ones of the plurality of coupled resonant cells and/or respective ones of the plurality of high-frequency resonant cells, wherein at least some of the plurality of intermediate-frequency resonant cells define an upper resonant space of at least some of the plurality of partitioned resonant cells. 8. The acoustic core of claim 1 , comprising: a plurality of partitioned resonant cells, respective ones of the plurality of partitioned resonant cells comprising a partition integrally formed with at least one of the one or more cell walls and oriented perpendicular to the at least one of the one or more cell walls, wherein the at least one of the one or more cell walls is oriented obliquely relative to a longitudinal axis of the corresponding antecedent resonant space and/or the corresponding subsequent resonant space. 9. An acoustic core, comprising: an array of resonant cells, wherein respective ones of the array of resonant cells comprise one or more cell walls and a resonant space defined by the one or more cell walls, and wherein the array of resonant cells comprises: a plurality of partitioned resonant cells, respective ones of the plurality of partitioned resonant cells comprising a partition integrally formed with at least one of the corresponding one or more cell walls and transecting the corresponding resonant space with at least one surface of the partition having an interface angle that is oblique or perpendicular relative to a plane parallel to a top face and/or a bottom face of the array of resonant cells. 10. The acoustic core of claim 9 , wherein the interface angle is from 5 degrees to 90 degrees as determined from a plane parallel to a bottom face and/or a top face of the array of resonant cells. 11. The acoustic core of claim 9 , wherein the partition comprises at least one buttress integrally formed with at least one of the one or more cell walls. 12. The acoustic core of claim 9 , wherein the partition transects the corresponding resonant space with a substantially uniform cross-sectional thickness. 13. The acoustic core of claim 9 , wherein the partition is oriented perpendicular to the at least one of the one or more cell walls, the at least one of the one or more cell walls oriented obliquely relative to a longitudinal axis of the resonant space defined by the one or more cell walls. 14. The acoustic core of claim 9 , comprising: a plurality of coupled resonant cells, respective ones of the plurality of coupled resonant cells comprising at least one cell wall having one or more wall-apertures defining a pathway between an antecedent resonant space and a subsequent resonant space. 15. The acoustic core of claim 14 , wherein the one or more wall-apertures defining the pathway between the antecedent resonant space and the subsequent resonant space are disposed proximal to the bottom face; and wherein the array of resonant cells comprises a plurality of high-frequency resonant cells respectively defining a high-frequency resonant space, respective ones of the plurality of high-frequency resonant cells being matched with respective ones of the plurality of coupled resonant cells. 16. An acoustic core, comprising: an array of resonant cells, wherein respective ones of the array of resonant cells comprise one or more cell walls and a resonant space defined by the one or more cell walls, and wherein the array of resonant cells comprises: a plurality of coupled resonant cells, respective ones of the plurality of coupled resonant cells comprising at least one cell wall having one or more wall-apertures defining a pathway between an antecedent resonant space and a subsequent resonant space; and wherein a cross-sectional dimension of the one or more wall-apertures defining the pathway between the antecedent resonant space and the subsequent resonant space is less than a cross-sectional dimension of the antecedent resonant space and/or a cross-sectional dimension of the subsequent resonant space, the cross-sectional dimension of the antecedent resonant space and/or the cross-sectional dimension of the subsequent resonant space determined adjacent to the one or more wall-apertures. 17. The acoustic core of claim 16 , wherein the one or more wall-apertures defining the pathway between the antecedent resonant space and the subsequent resonant space comprises a p