Labyrinth seal

The invention claimed is: 1. A labyrinth seal comprising: a rotating body rotatable about an axis of rotation and having an outer circumferential surface; a stationary body provided radially outward of the rotating body and having an inner circumferential surface; a gap being formed between the inner circumferential surface and the outer circumferential surface; wherein the labyrinth seal is configured to inhibit leakage of fluid passing axially from a high-pressure side to a low-pressure side through the gap, wherein the labyrinth seal further comprising: a step formed on the outer circumferential surface of the rotating body such that the rotating body has a large diameter portion on the high-pressure side and a small diameter portion on the low-pressure side so that an annular surface viewing from a point on the rotation axis is formed at a boundary between the large diameter portion and the small diameter portion, a fin extending radially inward from the inner circumferential surface of the stationary body is provided at least on the low-pressure side of the step, and an annular groove formed in the outer circumferential surface of the rotating body to circumferentially extend and to be located in at least a portion of an area between the step and the fin that is provided close to the low-pressure side compared to the step, wherein the annular groove has a low-pressure-side side surface and a high-pressure-side side surface where the high-pressure-side side surface is flush with the annular surface of the step. 2. The labyrinth seal according to claim 1 , wherein a distal end of the fin that is provided close to the low-pressure side compared to the step is located close to the high-pressure side compared to a proximal end of the fin. 3. The labyrinth seal according to claim 1 , wherein an outline of the annular groove has an arc shape in a cross-section including the axis of rotation. 4. The labyrinth seal according to claim 2 , wherein an outline of the annular groove has an arc shape in a cross-section including the axis of rotation. 5. The labyrinth seal according to claim 1 , wherein in a cross-section including the axis of rotation, a low-pressure-side side surface of the annular groove has such a shape that a radially inner end thereof is located close to the high-pressure side compared to a radially outer end thereof. 6. The labyrinth seal according to claim 2 , wherein in a cross-section including the axis of rotation, a low-pressure-side side surface of the annular groove has such a shape that a radially inner end thereof is located close to the high-pressure side compared to a radially outer end thereof. 7. The labyrinth seal according to claim 1 , wherein the annular groove is formed to extend axially from a position of the step toward the low-pressure side. 8. The labyrinth seal according to claim 7 , wherein when an axial distance between the step and a distal end of a low-pressure-side surface of the fin that is provided close to the low-pressure side compared to the step is defined as G and an axial opening width of the annular groove is defined as W, 0.78<G/W<1.22 is satisfied. 9. The labyrinth seal according to claim 1 , wherein a plurality of the steps is formed on the outer circumferential surface of the rotating body such that the diameter of the rotating body gradually decreases from the high- pressure side toward the low-pressure side, and the fin is provided at least close to the low-pressure side compared to each of the steps. 10. The labyrinth seal according to claim 2 , wherein the annular groove is formed to extend axially from a position of the step toward the low-pressure side. 11. The labyrinth seal according to claim 3 , wherein the annular groove is formed to extend axially from a position of the step toward the low-pressure side. 12. The labyrinth seal according to claim 4 , wherein the annular groove is formed to extend axially from a position of the step toward the low-pressure side. 13. The labyrinth seal according to claim 5 , wherein the annular groove is formed to extend axially from a position of the step toward the low-pressure side. 14. The labyrinth seal according to claim 6 , wherein the annular groove is formed to extend axially from a position of the step toward the low-pressure side. 15. The labyrinth seal according to claim 1 , wherein an annular groove has a high-pressure-side surface and a low-pressure-side side surface formed on the outer circumferential surface of the rotating body, and wherein an axial position of a distal end of the fin is substantially same as an axial position of the low-pressure-side side surface of the annular groove.