Stepped acoustic structures with multiple degrees of freedom

What is claimed is: 1. A stepped acoustic structure in which acoustic septum caps are located in the cells of a stepped-honeycomb so that the acoustic impedance of at least two of the cells is different to provide the stepped-acoustic structure with multiple degrees of freedom for reducing the noise generated from a source, said stepped acoustic structure comprising: A) a honeycomb comprising a first edge to be located closest to said source and a second edge, said honeycomb comprising a plurality of walls that extend between said first and second edges, said walls defining a first cell and a second cell wherein each of said first and second cells has the same cross-sectional area measured perpendicular to said walls; B) an acoustic barrier located at the second edge of said honeycomb or within said first or second cells to form a first acoustic resonator and a second acoustic resonator wherein the depth of each of said first and second acoustic resonators is equal to the distance between the first edge of said honeycomb and said acoustic barrier; C) a first acoustic septum cap comprising: a) a first anchor portion for anchoring said first acoustic septum cap to the walls of said first cell, said first anchor portion having an outer edge and a first anchor boundary that is spaced from the outer edge of said first anchor portion a first anchoring distance, said first anchor portion being bonded to said walls and extending parallel thereto and wherein said first anchor boundary is located at a first anchor depth within said first cell; b) a first septum portion extending transverse to the walls of said first cell and having a cross-sectional area that is equal to the cross-sectional area of said first cell and wherein said first septum portion is located at a first septum depth such that said first cell has a first acoustic impedance; D) a second acoustic septum cap comprising: a) a second anchor portion for anchoring said second acoustic septum cap to the walls of said second cell, said second anchor portion having an outer edge and a second anchor boundary that is spaced from the outer edge of said second anchor portion a second anchoring distance, said second anchor portion being bonded to said walls and extending parallel thereto, said second anchor boundary being located at a second anchor depth within said second cell wherein said second anchor depth is equal to said first anchor depth: b) a second septum portion extending transverse to said walls and having a cross-sectional area wherein said second septum portion is located at a second septum depth; and E) a step attached to the walls of said second cell that reduces the cross-sectional area of said second cell at said second septum depth an amount that is equal to from 10 to 85 percent of the cross-sectional area of said second cell whereby said second cell has a second acoustic impedance that is sufficiently different from said first acoustic impedance to provide said stepped acoustic structure with multiple degrees of freedom for reducing the noise generated from a source. 2. A stepped acoustic structure according to claim 1 wherein said first septum depth is equal to said second septum depth and wherein said second acoustic impedance matches the acoustic impedance that would be provided by said first resonator if said first septum portion was located closer to the first edge of said honeycomb than said second septum portion. 3. A stepped acoustic structure according to claim 2 wherein the depth of each of said first and second acoustic resonators is between 1 inch (2.5 cm) and 3 inches (7.5 cm). 4. A stepped acoustic structure according to claim 3 wherein said second acoustic impedance matches the acoustic impedance that would be provided by said first acoustic resonator if said first septum portion was located from 0.01 inch (0.025 cm) to 0.25 inch (0.64 cm) closer to the first edge of said honeycomb than said first septum depth. 5. A stepped acoustic structure according to claim 1 wherein said step reduces the cross-sectional area of said second cell at said second septum depth an amount that is equal to from 20 to 85 percent of the cross-sectional area of said second cell. 6. A stepped acoustic structure according to claim 4 wherein said step reduces the cross-sectional area of said second cell at said second septum depth an amount that is equal to from 20 to 85 percent of the cross-sectional area of said second cell. 7. A stepped acoustic structure according to claim 1 wherein said first septum cap includes a first septum depth control portion located between said first septum portion and said first anchor portion, said first depth control portion extending parallel to said walls and comprising an exterior boundary that coincides with said first anchor boundary and a first septum boundary located around said first septum portion wherein said first septum boundary is spaced from the first exterior boundary a first depth control distance so that said first septum depth is greater than said second septum depth. 8. A stepped acoustic structure according to claim 7 wherein said first septum control distance is from 0.25 inch (0.64 cm) to 2 inches (5 cm). 9. A stepped acoustic structure according to claim 1 wherein the walls of said honeycomb define a third cell and a fourth cell wherein each of said third and fourth cells has the same cross-sectional area measured perpendicular to said walls and wherein said acoustic barrier is located at the second edge of said honeycomb or within said third or fourth cells to form a third acoustic resonator and a fourth acoustic resonator wherein the depth of each of said third and fourth acoustic resonators is equal to the distance between the first edge of said honeycomb and said acoustic barrier, said stepped acoustic structure comprising: A) a third acoustic septum cap comprising: a) a third anchor portion for anchoring said third acoustic septum cap to the walls of said third cell, said third anchor portion having an outer edge and a third anchor boundary that is spaced from the outer edge of said third anchor portion a third anchoring distance, said third anchor portion being bonded to said walls and extending parallel thereto and wherein said third anchor boundary is located at a third anchor depth within said third cell, said third anchor depth being equal to said first anchor depth; b) a third septum portion extending transverse to the walls of said third cell and having a cross-sectional area that is equal to the cross-sectional area of said third cell and wherein said third septum portion is located at a third septum depth such that said third acoustic resonator has a third acoustic impedance; c) a third septum depth control portion located between said third septum portion and said third anchor portion, said third depth control portion extending parallel to said walls and comprising an exterior boundary that coincides with said third anchor boundary and a third septum boundary located around said third septum portion wherein said third septum boundary is spaced from the third exterior boundary a third depth control distance such that said third septum depth is greater than said first septum depth; B) a fourth acoustic septum cap comprising: a) a fourth anchor portion for anchoring said fourth acoustic septum cap to the walls of said fourth cell, said fourth anchor portion having an outer edge and a fourth anchor boundary that is spaced from the outer edge of said fourth anchor portion a fourth anchoring distance, said fourth anchor portion being bonded to said walls and extending parallel thereto and wherein said fourth anchor boundary is located at a fourth anchor depth within said fourth cell, said fourth anchor depth bein