Labyrinth seal

The invention claimed is: 1. A labyrinth seal for use in a rotary machine, the labyrinth seal comprising: a first member; a second member facing the first member; and a gap formed between the first member and the second member and configured to allow a fluid to flow from a high-pressure side to a low-pressure side in a flow direction that is a direction perpendicular to a direction where the first member and the second member face each other, wherein, in a facing direction which is the direction where the first member and the second member face each other, a side of the first member relative to the second member is defined as one side of the facing direction, and in the facing direction, a side of the second member relative to the first member is defined as an other side of the facing direction, a step portion formed in a portion of the second member on the other side of the facing direction and facing the high-pressure side; a high-pressure-side fin arranged on the high-pressure side relative to the step portion and extending from a portion of the first member on the one side of the facing direction toward the other side of the facing direction; a low-pressure-side fin arranged on the low-pressure side relative to the step portion and extending from a portion of the first member on the one side of the facing direction toward the other side of the facing direction; and an annular groove formed in a portion of the second member on the other side of the facing direction and arranged in at least a part of a region on the low-pressure side relative to the step portion as well as on the high-pressure side relative to the low-pressure-side fin, wherein the annular groove includes a slant portion formed in at least one of a portion of the annular groove on the high-pressure-side and a portion of the annular groove on the low-pressure-side and a flat bottom surface extending along the flow direction; and an end of the slant portion on the other side of the facing direction is a point on the flat bottom surface and is located close to a center side of the annular groove in the flow direction relative to an other end of the slant portion on the one side of the facing direction, wherein the following relationship is satisfied: 1.0>D/H>0.6, wherein H is a maximum height of the step portion in the facing direction, and D is a maximum depth of the annular groove in the facing direction. 2. The labyrinth seal according to claim 1 , wherein a cross-section of a bottom of the annular groove as viewed from a direction perpendicular to each of the facing direction and the flow direction has a generally concave protruding toward the other side of the facing direction. 3. The labyrinth seal according to claim 1 , wherein the following relationship is satisfied: 0<L/G<1.2+T/G, wherein L is a distance in the flow direction from the step portion to a portion which is an end of the annular groove on the other side of the facing direction and the end of the annular groove on the low-pressure-side, G is a distance in the flow direction from the step portion to a portion which is a distal end of the low-pressure-side fin and the end of the low-pressure-side fin on the high-pressure-side, and T is a width of the distal end of the low-pressure-side fin in the flow direction. 4. The labyrinth seal according to claim 3 , wherein the following relationship is satisfied: 0.6<L/G<1.2+T/G. 5. The labyrinth seal according to claim 1 , wherein a first structure including the high-pressure-side fin, the step portion, the annular groove, and the low-pressure-side fin arranged in this order along the flow direction, and a second structure, substantially identical to the first structure and arranged side-by-side with respect to the first structure in the flow direction, the second structure including a second high-pressure-side fin, a second step portion, a second annular groove, and a second low-pressure-side fin arranged in this order along the flow direction. 6. A labyrinth seal for use in a rotary machine, the labyrinth seal comprising: a first member; a second member facing the first member; and a gap formed between the first member and the second member and configured to allow a fluid to flow from a high-pressure side to a low-pressure side in a flow direction that is a direction perpendicular to a direction where the first member and the second member face each other, wherein, in a facing direction which is the direction where the first member and the second member face each other, a side of the first member relative to the second member is defined as one side of the facing direction, and in the facing direction, a side of the second member relative to the first member is defined as an other side of the facing direction, a step portion formed in a portion of the second member on the other side of the facing direction and facing the high-pressure side; a high-pressure-side fin arranged on the high-pressure side relative to the step portion and extending from a portion of the first member on the one side of the facing direction toward the other side of the facing direction; a low-pressure-side fin arranged on the low-pressure side relative to the step portion and extending from a portion of the first member on the one side of the facing direction toward the other side of the facing direction; and an annular groove formed in a portion of the second member on the other side of the facing direction and arranged in at least a part of a region on the low-pressure side relative to the step portion as well as on the high-pressure side relative to the low-pressure-side fin, wherein the following relationship is satisfied: 0<L/G<1.2+T/G, wherein L is a distance in the flow direction from the step portion to a portion which is an end of the annular groove on the other side of the facing direction and the end of the annular groove on the low-pressure-side, G is a distance in the flow direction from the step portion to a portion which is a distal end of the low-pressure-side fin and the end of the low-pressure-side fin on the high-pressure-side, and T is a width of the distal end of the low-pressure-side fin in the flow direction, and wherein the following relationship is satisfied: 1.0>D/H>0.6, wherein H is a maximum height of the step portion in the facing direction, and D is a maximum depth of the annular groove in the facing direction. 7. The labyrinth seal according to claim 6 , wherein a distal end of the low-pressure-side fin is arranged on the high-pressure side relative to a proximal end of the low-pressure-side fin.