Torsional resonance frequency adjustor

What is claimed is: 1. A torsional frequency adjustor for a rotating body, the torsional frequency adjuster comprising: a first ring having a first engagement surface parallel to an outer surface of the rotating body, the first engagement surface having a total arcuate length that is smaller than a circumference of the outer surface of the rotating body, the first ring further having a first wedge surface inclined at a first angle with respect to the first engagement surface; a second ring having a second wedge surface corresponding to and selectively engaging the first wedge surface, a total arcuate length of the second wedge surface being smaller than a total arcuate length of the first wedge surface at each corresponding point along a shared longitudinal axis of the first and second rings; an inducer that, in operation, draws the first wedge surface into engagement with a portion of the second wedge surface, thereby inducing an interference fit of the first engagement surface with the outer surface of the rotating body, wherein at least one of the first ring or the second ring includes a plurality of arcuate segments and at least one gap between an adjacent pair of the plurality of arcuate segments. 2. The adjustor of claim 1 , wherein any gap between an adjacent pair of arcuate segments of the first ring is circumferentially spaced apart from any gap between an adjacent pair of arcuate segments of the second ring. 3. The adjustor of claim 1 , wherein the inducer includes first and second retainer rings on opposite sides of the first and second rings and a plurality of fasteners circumferentially spaced about the first and second retainer rings so as to selectively draw the first and second retainer rings together, thereby selectively drawing the first and second wedge surfaces into engagement. 4. The adjustor of claim 1 , wherein the first ring includes a third wedge surface inclined with respect to the first engagement surface and such that a largest-diameter end of the first wedge surface adjoins a largest-diameter end of the third wedge surface. 5. The adjustor of claim 4 , further including a third ring having a fourth wedge surface corresponding to and selectively engaging the third wedge surface, a total arcuate length of the fourth wedge surface being smaller than a total arcuate length of the third wedge surface at each corresponding point along a shared longitudinal axis of the first and third rings. 6. The adjustor of claim 5 , wherein the inducer includes a plurality of fasteners circumferentially spaced about and inserted through the second and third rings so as to selectively draw the second and third rings together, thereby selectively drawing the first and second wedge surfaces together, as well as drawing the third and fourth wedge surfaces together. 7. The adjustor of claim 5 , wherein at least one of the second ring or the third ring includes a plurality of subrings, each subring including a plurality of arcuate segments and at least one gap between a pair of adjacent arcuate segments. 8. The adjustor of claim 7 , wherein both the second ring and the third ring include a plurality of subrings and the gaps of both pluralities of subrings are circumferentially spaced so that no two gaps occupy a same circumferential position. 9. A torsional frequency adjustor for a rotating body, the torsional frequency adjustor comprising: a first ring having a first plurality of arcuate segments with a first inner total arcuate length that is smaller than an outer circumference of the rotating body; a second ring having a second plurality of arcuate segments with a second inner total arcuate length that is smaller than an outer total arcuate length of the first ring; and an inducer attached to at least one of the first ring or the second ring so as to induce radial inward force on the first ring, thereby forcing the first ring into engagement with the rotating body, wherein each plurality of arcuate segments includes a gap between an adjacent pair of arcuate segments, each gap having a unique circumferential position about the rotating body. 10. The torsional frequency adjustor of claim 9 , wherein the second ring includes at least one left ring disposed over a left portion of the first ring and at least one right ring disposed over a right portion of the first ring. 11. The torsional frequency adjustor of claim 10 , wherein: the first ring further includes a left wedge surface and a right wedge surface, a largest diameter of the left wedge surface adjoining a largest diameter of the right wedge surface; an inner surface of the at least one left ring corresponds to the left wedge surface; an inner surface of the at least one right ring corresponds to the right wedge surface; and the inducer selectively draws the at least one left ring toward the at least one right ring, thereby drawing the inner surface of the at least one left ring into engagement with the left wedge surface and drawing the inner surface of the at least one right ring into engagement with the right wedge surface. 12. A torsional frequency adjustor for a rotating body, the torsional frequency adjuster comprising: an inner ring having an inner total arcuate length smaller than an outer circumference of the rotating body and including: a longitudinal center having a largest outer diameter of the inner ring; a front portion of the inner ring extending from a longitudinal front edge to the longitudinal center, the longitudinal front edge having an outer diameter that is smaller than the largest outer diameter of the inner ring; and a rear portion of the inner ring extending from the longitudinal center to a rear longitudinal edge, the rear longitudinal edge having an outer diameter that is smaller than the largest outer diameter of the inner ring; at least two front outer rings sized to engage an outer surface of the front portion of the inner ring, wherein each front outer ring includes an inner surface corresponding to at least a part of the outer surface of the front portion of the inner ring so that when the at least two front outer rings are engaging each other in a longitudinal direction, the combined inner surfaces of the at least two front outer rings form a substantially contiguous inner surface selectively engaging the outer surface of the front portion of the inner ring; at least two rear outer rings sized to engage an outer surface of the rear portion of the inner ring, wherein each rear outer ring includes an inner surface corresponding to at least a part of the outer surface of the rear portion of the inner ring so that when the at least two rear outer rings are engaging each other, the combined inner surfaces of the at least two rear outer rings form a substantially contiguous inner surface engaging the outer surface of the rear portion of the inner ring; and an inducer that draws the at least two front outer rings and the at least two rear outer rings together in the longitudinal direction, thereby drawing the inner surfaces of the outer rings into engagement with the outer surfaces of the inner ring to induce an inward radial force in the inner ring that, responsive to the inducer being mounted on the rotating body, effects an interference fit between the inner ring and the rotating body. 13. The torsional frequency adjustor of claim 12 , wherein each outer ring includes at least two arcuate segments and a gap between a pair of the at least two arcuate segments, each gap having a unique circumferential position with respect to the inner ring and with respect to each other gap. 14. Torsional frequency adjustor of claim 13 , wherein the at leas