Fabrication method for loop heat pipe

What is claimed is: 1. A fabrication method for a loop heat pipe, comprising: processing a region of a first plate member, in which an evaporator is to be formed, to form, in a region in which a plurality of portions extending in a lengthwise direction from the side of a liquid inlet toward the side of a vapor outlet of the region serving as the evaporator are to be formed, a first groove extending in a widthwise direction crossing with the lengthwise direction and capable of generating capillary force such that, from among regions in which a plurality of vapor flow paths are to be formed provided between the regions in which the plurality of portions are to be formed, regions in which two vapor flow paths adjacent to each other are to be formed are communicated with each other, form, in a region in which a liquid inlet side portion is to be formed, a third groove extending in the widthwise direction and capable of generating capillary force and form a first wide groove having a width greater than those of the first groove and the third groove in the region in which the plurality of vapor flow paths are to be formed and a region in which a vapor outlet side vapor flow path is to be formed; processing a region of a second plate member, in which the evaporator is to be formed, to form, in the region in which the plurality of portions are to be formed, a second groove extending in the lengthwise direction and capable of generating capillary force, form, in a region continuing to the liquid inlet and a region which each of the plurality of portions continues included in the region in which the liquid inlet side portion is to be formed, a fourth groove extending in the lengthwise direction and capable of generating capillary force, and form, in the region in which the plurality of vapor flow paths are to be formed and the region in which the vapor outlet side vapor flow path is to be formed, a second wide groove having a width greater than those of the second groove and the fourth groove; and joining the first plate member and the second plate member together such that the side having the first groove, third groove and first wide groove and the side having the second groove, fourth groove and second wide groove are opposed each other. 2. The fabrication method for a loop heat pipe according to claim 1 , wherein, in the processing the first plate member, an etching process is performed for the region of the first plate member, in which a liquid line is to be formed, to form a first liquid line groove extending in a lengthwise direction of the region in which the liquid line is to be formed and capable of generating capillary force; in the processing the second plate member, an etching process is performed for the region of the second plate member, in which the liquid line is to be formed, to form a second liquid line groove extending in a lengthwise direction of the region in which the liquid line is to be formed and capable of generating capillary force; and in the joining the first plate member and the second plate member together, the first plate member and the second plate member are joined together such that the side having the first groove, third groove, first wide groove and first liquid line groove and the side having the second groove, fourth groove, second wide groove and second liquid line groove are opposed to each other. 3. The fabrication method for a loop heat pipe according to claim 1 , wherein, in the processing the first plate member; an etching process is performed for the region of the first plate member, in which a liquid line is to be formed, to form a first liquid line groove extending in a lengthwise direction of the region in which the liquid line is to be formed and capable of generating capillary force; in the processing the second plate member, an etching process is performed for the region of the second plate member, in which the liquid line is to be formed, to form a second liquid line groove extending in a widthwise direction of the region in which the liquid line is to be formed and capable of generating capillary force; and in the joining the first plate member and the second plate member together, the first plate member and the second plate member are joined together such that the side having the first groove, third groove, first wide groove and first liquid line groove and the side having the second groove, fourth groove, second wide groove and second liquid line groove are opposed to each other.