Submarine cable and multilayer tape for impermeable layer of same

What is claimed is: 1. A submarine cable comprising at least: a power cable including a conductor on which an insulating layer, a shielding layer, a first impermeable layer, and a corrosion-protective layer are formed in sequence; armoring portions formed by disposing a plurality of wire materials on the periphery side of the whole of a plurality of the power cables in the circumferential direction of the periphery of the whole power cables and providing the wire materials helically in the axial direction of the power cables; and an external corrosion-protective layer formed on the peripheral side of the armoring portion; wherein, the first impermeable layer is formed with a multilayer tape in which a metal layer is interposed by resin; the metal layer of the multilayer tape has at least either protrusion portions or recess portions that are repeatedly formed and each of the protrusion portions or the recess portions is formed separately from one another having a flat portion in between; the protrusion portions or the recess portions are approximately circular shaped or approximately elliptical shaped; and at least a part of the protrusion portions or the recess portions is arranged at a predetermined pitch in an arbitrary cross section of the first impermeable layer taken in the axial direction of the power cable. 2. The submarine cable according to claim 1 , wherein the metal layer includes approximately circular first protrusion portions or recess portions and approximately circular second protrusion portions or recess portions that are arranged in a lattice shape of a pitch P 1 in the circumferential direction of the impermeable layer and a pitch P 2 in the axial direction of the impermeable layer respectively, zigzag to each other; each of the protrusion portions or the recess portions of the first protrusion portions or recess portions and the second protrusion portions or recess portions are arranged in the axial direction of the impermeable layer; and if the diameter of the first protrusion portion or recess portion is D 1 and the diameter of the second protrusion portion or recess portion is D 2 , the relations D 1 <P 1 and D 1 <P 2 , D 2 <P 1 , D 2 <P 2 and P 1 <D 1 +D 2 and D 1 +D 2 <(P 1 2 +P 2 2 ) 1/2 are satisfied. 3. The submarine cable according to claim 1 , wherein the metal layer includes approximately circular first protrusion portions or recess portions and approximately circular second protrusion portions or recess portions that are arranged in a lattice shape of the same pitch P respectively, zigzag to each other; and if the diameter of the first protrusion portion or recess portion is D 1 and the diameter of the second protrusion portion or recess portion is D 2 , the relation D 1 <P and D 2 <P and P<D 1 +D 2 <2 1/2 ×P is satisfied, and the relation P<2 1/2 ×D 1 or P<2 1/2 ×D 2 is further satisfied. 4. The submarine cable according to claim 1 , wherein the metal layer includes approximately circular first protrusion portions or recess portions and approximately circular second protrusion portions or recess portions that are arranged zigzag to each other at the same pitch P respectively in a rhombus-shaped form of which diagonal lines are arranged toward the axial direction of the impermeable layer; and if the diameter of the first protrusion portion or recess portion is D 1 , the diameter of the second protrusion portion or recess portion is D 2 , the pitch of the first protrusion portion or recess portion in the diagonal direction of the rhombus, which is the pitch for the circumferential direction of the impermeable layer, is P 1 , and the pitch of the first protrusion portion or recess portion in the diagonal direction of the rhombus, which is the pitch for the longitudinal direction of the impermeable layer, is P 2 , the relation D 1 <P and D 2 <P and (D 1 +D 2 )<P 1 and (D 1 +D 2 )<P 2 is satisfied and the relation P 1 <2D 1 or P 1 <2D 2 is further satisfied. 5. The submarine cable according to claim 1 , wherein the metal layer includes approximately elliptical first protrusion portions or recess portions and approximately elliptical second protrusion portions or recess portions that are arranged in a lattice shape of a pitch P 1 in the circumferential direction of the impermeable layer and a pitch P 2 in the axial direction of the impermeable layer respectively, zigzag to each other; the direction of the major axis or the minor axis of each of the protrusion portions or the recess portions of the first protrusion portions or recess portions and the second protrusion portions or recess portions are arranged in the axial direction of the impermeable layer and each of the protrusion portions or the recess portions of the first protrusion portions or recess portions and the second protrusion portions or recess portions are arranged in the axial direction of the impermeable layer; and if the diameter of the first protrusion portion or recess portion in the circumferential direction of the impermeable layer is D 1 W, the diameter of the first protrusion portion or recess portion in the axial direction of the impermeable layer is D 1 L, the diameter of the second protrusion portion or recess portion in the circumferential direction of the impermeable layer is D 2 W, the diameter of the second protrusion portion or recess portion in the axial direction of the impermeable layer is D 2 L, the pitch of the first protrusion portion or recess portion in the oblique direction calculated by (P 1 2 +P 2 2 ) 1/2 is P 3 , the length of the second protrusion portion or recess portion on a line segment which connects the first protrusion portions or recess portions in the oblique direction is D 2 S, and the length of the first protrusion portion or recess portion on a line segment which connects the second protrusion portions or recess portions in the oblique direction is D 1 S, then the relation D 1 W<P 1 and D 1 L<P 2 and D 2 W<P 1 and D 2 L<P 2 and P 1 <D 1 W+D 2 W and D 1 S+D 2 S<P 3 is satisfied. 6. The submarine cable according to claim 1 , wherein the metal layer includes approximately elliptical first protrusion portions or recess portions and approximately elliptical second protrusion portions or recess portions that are arranged in a lattice shape of the same pitch P, zigzag to each other; the direction of the major axis or the minor axis of each of the protrusion portions or the recess portions of the first protrusion portions or recess portions and the second protrusion portions or recess portions are arranged in the axial direction of the impermeable layer, and the diagonal line of the lattice form is arranged in the axial direction of the impermeable layer; and if the diameter of the first protrusion portion or recess portion in the circumferential direction of the impermeable layer is D 1 W, the diameter of the first protrusion portion or recess portion in the axial direction of the impermeable layer is D 1 L, the diameter of the second protrusion portion or recess portion in the circumferential direction of the impermeable layer is D 2 W, the diameter of the second protrusion portion or recess portion in the axial direction of the impermeable layer is D 2 L, the pitch of the first protrusion portion or recess portion in the oblique direction calculated by 2 1/2 P is P 3 , the length of the second protrusion portion or recess portion on a line segment which connects the first protrusion portions or recess portions in the forming direction thereof is D 2 S, and the length of the first protrusion portion or recess portion on a line segment which connects the second protrusion portions or recess portions in the forming direction thereof is D 1 S, then the relation D 1 S<P and D 2 S<P and D 1 W+D 2 W<P 3 and D 1 L+D 2 L<P 3 is satisfied