Cycling helmet with rotational impact attenuation

What is claimed is: 1. A helmet, comprising: an outer liner formed of a first foamed energy management material and comprising an inward-facing surface; an inner liner formed of a second foamed energy management material and positioned at least partially inside the outer liner, the inner liner comprising an outward-facing surface facing the inward-facing surface of the outer liner; at least one chin strap anchored to the outer liner and passing through an opening in the inner liner; a plurality of return springs each comprising an elastomeric material, each return spring having a first end coupled to the inward-facing surface of the outer liner, a second end distal to the first end and coupled to the outward-facing surface of the inner liner, and a body connecting the first end and the second end, the plurality of return springs biasing the inner liner to a first position with respect to the outer liner; and at least one leash coupling, each leash coupling comprising an upper end coupled to the outer liner, a lower end distal to the upper end and coupled to the inner liner, and a flexible tether that connects the upper end and the lower end, and passes through the inward-facing surface of the outer liner and the outward-facing surface of the inner liner; wherein the inner liner is slidably coupled to the inward-facing surface of the outer liner through the plurality of return springs and slidably movable relative to the outer liner between the first position and a second position where the inner liner and outer liner are rotated with respect to each other away from the first position; wherein both the inward-facing surface of the outer liner and the outward-facing surface of the inner liner are substantially parallel to a portion of a sphere; wherein the body of each of the plurality of return springs is substantially tangential to the sphere; and wherein, for each of the at least one leash coupling, a majority of the tether is located in a cavity formed in at least one of the outer liner and inner liner. 2. The helmet of claim 1 , further comprising at least one glide pad having an adhesive surface affixed to one of the inward-facing surface of the outer liner and the outward-facing surface of the inner liner, and a glide surface opposite the adhesive surface, the glide surface having a coefficient of friction lower than the coefficient of friction of the one of the inward-facing surface of the outer liner and the outward-facing surface of the inner liner. 3. The helmet of claim 1 , wherein at least one of the inward-facing surface of the outer liner and the outward-facing surface of the inner liner comprises an annealed surface. 4. The helmet of claim 1 , wherein the first foamed energy management material and the second foamed energy management material each comprise one of expanded polystyrene and expanded polypropylene. 5. A helmet, comprising: an outer liner comprising an inward-facing surface; an inner liner positioned at least partially inside the outer liner, the inner liner comprising an outward-facing surface facing the inward-facing surface of the outer liner; a plurality of return springs comprising an elastomeric material, each return spring having a first end coupled to the inward-facing surface of the outer liner, a second end distal to the first end and coupled to the outward-facing surface of the inner liner, and a body connecting the first end and the second end, the plurality of return springs biasing the inner liner to a first position with respect to the outer liner; and at least one chin strap anchored to the outer liner and passing through an opening in the inner liner; wherein the inner liner is slidably coupled to the inward-facing surface of the outer liner through the plurality of return springs and slidably movable relative to the outer liner between the first position and a second position where the inner liner and outer liner are rotated with respect to each other away from the first position; and wherein the body of each return spring of the plurality of return springs is substantially tangential to at least one of the inward-facing surface of the outer liner and the outward-facing surface of the inner liner. 6. The helmet of claim 5 , wherein the outer liner is formed of a first foamed energy management material and the inner liner is formed of a second foamed energy management material. 7. The helmet of claim 6 , wherein both the inward-facing surface of the outer liner and the outward-facing surface of the inner liner are substantially parallel to a portion of a sphere. 8. The helmet of claim 5 , wherein for each return spring of the plurality of return springs, at least one of the first end and the second end sits in a recess in one of the inward-facing surface of the outer liner and the outward-facing surface of the inner liner, the recess having a depth at least equal to a thickness of the return spring. 9. The helmet of claim 8 , wherein for at least one of the plurality of return springs, one of the first end and the second end is coupled to one of the inward-facing surface of the outer liner and the outward-facing surface of the inner liner by a fastener passing through the return spring and into the one of the inward-facing surface of the outer liner and the outward-facing surface of the inner liner. 10. The helmet of claim 9 , wherein each fastener is locked inside a different receiver, each receiver being embedded in one of the outer liner and the inner liner. 11. The helmet of claim 5 , wherein for at least one of the plurality of return springs, one of the first end and the second end is in-molded into one of the inner liner and the outer liner. 12. The helmet of claim 5 , further comprising: an outer shell disposed on an outward-facing surface of the outer liner opposite the inward-facing surface of the outer liner, the outer shell comprising a shaped aperture; and a branding element comprising a first portion passing through the shaped aperture of the outer shell, and a second portion disposed between the outer shell and the outward-facing surface of the outer liner. 13. The helmet of claim 5 , further comprising: at least one leash coupling, each leash coupling comprising an upper end coupled to the outer liner, a lower end distal to the upper end and coupled to the inner liner, and a tether that is flexible, connects the upper end and the lower end, and passes through the inward-facing surface of the outer liner and the outward-facing surface of the inner liner; wherein, for each of the at least one leash coupling, a majority of the tether is located in a cavity formed in at least one of the outer liner and inner liner. 14. The helmet of claim 13 , wherein, for each of the at least one leash coupling, the tether is between 10 mm and 15 mm long. 15. The helmet of claim 13 , wherein, for each of the at least one leash coupling, the upper end comprises an upper anchor coupled to an upper snap receptacle in-molded into the outer liner, and the lower end comprises a lower anchor coupled to a lower snap receptacle in-molded into the inner liner. 16. The helmet of claim 13 , wherein the tether of each leash coupling is composed of nylon. 17. The helmet of claim 13 , wherein at least one of the upper end and the lower end of each leash coupling is in-molded into at least one of the outer liner and the inner liner.