Solid laser amplification device

The invention claimed is: 1. A solid laser amplification device comprising: a laser medium part which has a solid medium, into which a laser light enters from an entrance part and from which the laser light is emitted from an exit part to the outside, and an amplification layer which is provided on a surface of the medium, receives the laser light in the medium, and amplifies and reflects the laser light toward the exit part; a microchannel type cooling part of a plate-shaped member which cools the amplification layer; and a thermally conductive part which is provided in contact with the amplification layer and the cooling part between the amplification layer and the cooling part and transfers heat of the amplification layer to the cooling part, wherein a surface of the cooling part is in contact with the thermally conductive part, and the cooling part has a plurality of flow paths opened therein which extends along a direction parallel to the surfaces of the cooling part and the medium, and in which a cooling solvent flows, wherein, a thermal conductivity of the thermally conductive part is higher than a thermal conductivity of the laser medium and a thermal conductivity of the cooling part, and the thermally conductive part is a graphite sheet, a surface on one side of the thermally conductive part is in contact with the amplification layer, and a surface on the other side is in contact with the cooling part, and wherein in the thermally conductive part, thermal conductivity thereof along a direction parallel to the surface on the one side is higher than thermal conductivity thereof along a direction perpendicular to the surface on the one side. 2. The solid laser amplification device according to claim 1 , wherein the amplification layer, the thermally conductive part, and the cooling part are provided on each of the opposite surfaces of the medium. 3. The solid laser amplification device according to claim 2 , wherein a plurality of the cooling parts and a plurality of the thermally conductive parts are provided at predetermined intervals along a traveling direction of the laser light. 4. The solid laser amplification device according to claim 1 further comprising: an inlet header part which is connected to one end side of the cooling part for making an internal space thereof communicate with each of the plurality of flow paths for introducing the cooling solvent into the internal space, and an outlet header part which is connected to another end side of the cooling part for making an interval space thereof communicate with each of the plurality of flow paths for introducing the cooling solvent from the internal space to outside the internal space.