Method for manufacturing liquid supply member and method for manufacturing liquid discharge head

The invention claimed is: 1. A method for manufacturing a liquid supply member that supplies liquid to a discharge port that discharges liquid, the method comprising: preparing a transparent member being transparent to a laser beam and an absorption member for absorbing a laser beam, at least one of the transparent member and the absorption member having a groove for forming a supply path that supplies the discharge port with liquid; bringing the transparent member and the absorption member into contact with each other, with the groove inside; arranging a plurality of laser beam sources along a longitudinal direction of the groove, each of the laser beam sources having a laser beam aperture with a diameter such that the groove is entirely irradiated with laser beams; and forming the supply path by emitting laser beams simultaneously from the plurality of laser beam sources, via the transparent member, toward a contact portion, which is provided in a vicinity of the groove and at which the transparent member and the absorption member are in contact, to weld the transparent member and the absorption member at the contact portion, wherein the laser beams are emitted during the forming step such that a total irradiation amount per unit area with laser beams for a first portion that are included in the contact portion and located in a vicinity of an end in the longitudinal direction of the groove is larger than a total irradiation amount per unit area with laser beams for a second portion other than the first portion of the contact portion. 2. The method for manufacturing the liquid supply member according to claim 1 , wherein the plurality of laser beam sources include at least a first laser beam source and a second laser beam source that is other than the first laser beam source, the first laser beam source being provided at a position at which the first laser beam source can irradiate the first portion with the laser beams, the first laser beam source having a higher power than a power of the second laser beam source. 3. The method for manufacturing the liquid supply member according to claim 1 , wherein the plurality of laser beam sources include at least a first laser beam source and a second laser beam source that is other than the first laser beam source, the first laser beam source can irradiate the first portion with laser beams, the first laser beam source having a longer irradiation time than an irradiation time of the second laser beam source. 4. The method for manufacturing the liquid supply member according to claim 1 , wherein the plurality of laser beam sources include a plurality of first laser beam sources and a plurality of second laser beam sources that are other than the first laser beam sources, the first laser beam sources being provided at positions at which the first laser beams sources can irradiate the first portion with laser beams, a distance between two adjacent first laser beam sources is smaller than a distance between two adjacent second laser beam sources. 5. The method for manufacturing the liquid supply member according to claim 1 , wherein the plurality of laser beam sources include at least a first laser beam source and a second laser beam source that is other than the first laser beam source, the first laser beam source being provided at a position at which the first laser beam source can irradiate the first portion with laser beams, a distance between the first laser beam source and a reflection member that is provided on an extension in the direction from the end and reflects laser beams to irradiate the first portion is smaller than a distance between the first laser beam source and the second laser beam source being adjacent to the first laser beam source in the direction. 6. The method for manufacturing the liquid supply member according to claim 1 , wherein the plurality of laser beam sources include at least a first laser beam source provided at a position at which the first laser beam source can irradiate the first portion with laser beams, and a laser beam source that is provided at a periphery of the first laser beam source and irradiates the first portion with laser beams. 7. A method for manufacturing a liquid discharge head including a discharge port that discharges liquid and a liquid supply member that supplies that discharge port with liquid, the method comprising: preparing a transparent member being transparent to a laser beam and an absorption member for absorbing a laser beam, at least one of the transparent member and the absorption member having a groove for forming a supply path that supplies the discharge port with liquid; bring the transparent member and the absorption member into contact with each other, with the groove inside; arrange a plurality of laser beam sources along a longitudinal direction of the groove so that the plurality of laser beam sources and the groove overlap when viewed from a direction intersecting a main surface of the absorbing member; and forming the supply path by emitting laser beams simultaneously from the plurality of laser beam sources, via the transparent member, toward a contact portion, which provided in a vicinity of the groove and at which the transparent member and the absorption member are in contact, to weld the transparent member and the absorption member at the contact portion, wherein the laser beams are emitted during the forming such that a total irradiation amount per unit area with laser beams for a first portion that are included in the contact portion and located in a vicinity of an end in the longitudinal direction of the groove is larger than a total irradiation amount per unit are with laser beams of a second portion other than the first portion of the contact portion, and wherein the groove and the contact are entirely irradiated with laser beams. 8. The method for manufacturing the liquid supply member according to claim 1 , wherein the supply path is formed at a portion of the absorption member corresponding to the end in the longitudinal direction of the groove, and the supply path communicates with the groove, and extends in a direction intersecting with the longitudinal direction of the groove. 9. The method for manufacturing the liquid supply member according to claim 7 , wherein the supply path is formed at a portion of the absorption member corresponding to the end in the longitudinal direction of the groove, and the supply path communicates with the groove, and extends in a direction intersecting with the longitudinal direction of the groove. 10. The method for manufacturing the liquid supply member according to claim 1 , wherein a laser beam aperture of the plurality of laser beam sources is larger diameter than a width of the groove.