Firearm attachment

What is claimed is: 1. A firearm attachment, comprising: a base adapted to couple to a muzzle end of a barrel of a firearm; a flash hider that extends forward from the base; wherein the base comprises less than half of a length of the firearm attachment and includes a plurality of apertures disposed rearward of the flash hider that extend from a bore within the base through an outer circumfery of the firearm attachment; wherein the apertures comprise a constriction portion having a first depth and exhibiting a first fixed diameter extending to the bore, and an expansion portion having a second depth greater than the first depth and exhibiting a second larger increasing diameter extending to the outer circumfery, wherein the expansion portion subtends at an angle of 40 degrees; and wherein the apertures are distributed in an arc that is less than half of the outer circumfery and are adapted to impart thrust to the firearm attachment in response to combustion gases passed from the bore through the apertures to compensate for an undesired muzzle movement associated with the firearm. 2. The firearm attachment of claim 1 , wherein the constriction portion exhibits a substantially cylindrical cross-section and the expansion portion exhibits a substantially frusto-conical cross-section. 3. The firearm attachment of claim 1 , wherein the constriction and expansion portions form a nozzle. 4. The firearm attachment of claim 1 , wherein the first diameter is in a range of 0.062 inches to 0.093 inches. 5. The firearm attachment of claim 1 , wherein at least one of the apertures is concentric with an axis that is tilted forwardly at an acute angle relative to a central axis of the firearm attachment. 6. The firearm attachment of claim 5 , wherein the acute angle is in a range of 65 degrees to 85 degrees. 7. The firearm attachment of claim 1 , wherein the flash hider comprises a plurality of longitudinal tines adapted to substantially hide at least a portion of a muzzle flash associated with the firearm, wherein the apertures are distributed in a first aperture cluster comprising a first plurality of the apertures and a second aperture cluster distinct from the first aperture cluster and comprising a second plurality of the apertures, wherein both the first aperture cluster and the second aperture cluster are disposed in the arc, wherein the arc is between 100 to 150 degrees of the outer circumfery. 8. The firearm attachment of claim 1 , wherein: the apertures are a first plurality of apertures; the arc is a first arc; the muzzle movement is a first muzzle movement; the base includes a second plurality of apertures disposed rearward of the flash hider and that extend from the bore through the outer circumfery of the firearm attachment; the second apertures exhibit the first diameter at the bore and the second larger diameter at the outer circumfery; the second apertures are adapted to impart thrust to the firearm attachment in response to combustion gases passed from the bore through the second apertures to compensate for a second undesired muzzle movement associated with the firearm; and the first and second apertures are collectively distributed in a second arc less than half of the outer circumfery of the firearm attachment. 9. A method comprising: providing a firearm attachment comprising: a base coupled to a muzzle end of a barrel of a firearm, a flash hider that extends forward from the base, wherein the base comprises less than half of a length of the firearm attachment and includes a plurality of apertures disposed rearward of the flash hider that extend from a bore within the base through an outer circumfery of the firearm attachment, wherein the apertures comprise a constriction portion having a first depth and exhibiting a first fixed diameter extending to the bore, and an expansion portion having a second depth greater than the first depth and exhibiting a second larger increasing diameter extending to the outer circumfery, wherein the expansion portion subtends at an angle of 40 degrees; and wherein the apertures are distributed in an arc that is less than half of the outer circumfery; and passing combustion gases of the firearm from the bore through the apertures to impart thrust to the attachment to compensate for an undesired muzzle movement associated with the firearm. 10. The method of claim 9 , wherein the constriction portion exhibits a substantially cylindrical cross-section and the expansion portion exhibits a substantially frusto-conical cross-section. 11. The method of claim 9 , wherein the constriction and expansion portions form a nozzle. 12. The method of claim 9 , wherein at least one of the apertures is concentric with an axis that is tilted forwardly at an acute angle relative to a central axis of the attachment. 13. The method of claim 12 , wherein the acute angle is in a range of 65 degrees to 85 degrees. 14. The method of claim 9 , wherein the flash hider comprises a plurality of longitudinal tines adapted to substantially hide at least a portion of a muzzle flash associated with the firearm, wherein the apertures are distributed in a first aperture cluster comprising a first plurality of the apertures and a second aperture cluster distinct from the first aperture cluster and comprising a second plurality of the apertures, wherein both the first aperture cluster and the second aperture cluster are disposed in the arc, wherein the arc is between 100 to 150 degrees of the outer circumfery. 15. The method of claim 9 , wherein: the apertures are a first plurality of apertures; the arc is a first arc; the muzzle movement is a first muzzle movement; the base includes a second plurality of apertures disposed rearward of the flash hider and that extend from the bore through the outer circumfery of the attachment; the second apertures exhibit the first diameter at the bore and the second larger diameter at the outer circumfery; the first and second apertures are collectively distributed in a second arc less than half of the outer circumfery of the firearm attachment; and the method further comprises passing combustion gases of the firearm from the bore through the second apertures to impart thrust to the attachment to compensate for a second undesired muzzle movement associated with the firearm. 16. The firearm attachment of claim 1 , wherein: the constriction portion exhibits a substantially cylindrical cross-section and the expansion portion exhibits a substantially frusto-conical cross-section forming a nozzle; and the expansion portion comprises more than half of the nozzle. 17. The method of claim 9 , wherein: the constriction portion exhibits a substantially cylindrical cross-section and the expansion portion exhibits a substantially frusto-conical cross-section forming a nozzle; and the expansion portion comprises more than half of the nozzle. 18. The method of claim 9 , wherein the first diameter is in a range of 0.062 inches to 0.093 inches. 19. The firearm attachment of claim 1 , wherein the base comprises first and second complementary external surfaces collectively providing an outer circumfery of the firearm attachment, wherein the apertures are distributed in an arc along the first external surface, and wherein the second external surface is a non-perforated continuous surface that is more than half of the outer circumfery. 20. The method of claim 9 , wherein the base comprises first and second complementary external surfaces collectively providing an out