Systems for and method of welding with two collections of laser heat source points

1 . A method for laser welding, comprising: arranging at least one heat source point from a first collection of heat source points so as to overlap at least a portion of at least one heat source point from a second collection of heat source points; irradiating a portion of a target with the first and second collections of heat source points, the heat source points maintaining a linear profile within their respective collection; and directing the at least two collections of heat source points in a travel direction along a weld line, each linear profile maintaining an oblique angle relative to the travel direction. 2 . The method for laser welding according to claim 1 , comprising splitting at least one laser beam to produce at least one of the at least two collections of heat source points. 3 . The method according to claim 1 , wherein the directing comprises manipulating one or more optical elements based on predefined instructions. 4 . The method according to claim 1 , wherein each collection of heat source points comprises at least one primary heat source point and at least two subsidiary heat source points, the at least one primary heat source point having higher power than the at least two subsidiary heat source points. 5 . The method according to claim 4 , comprising a second arranging wherein, based on a position along the weld line, at least a portion of the first and second collections of heat source points are positioned to form a different pattern of heat source points from the first arranging. 6 . The method according to claim 4 , wherein a first subsidiary heat source point from a first collection and a second subsidiary heat source point from a second collection overlap at least partially depending on the position along the weld line. 7 . The method according to claim 1 , comprising forming a vertex between the linear profiles, the vertex being superposed over a gap to be welded. 8 . The method according to claim 7 , wherein the vertex is formed of a first subsidiary heat source point from a first collection and a second subsidiary heat source point from a second collection. 9 . A battery having a case comprising an elongate battery case and cover, the case and cover being welded according to the method of claim 1 . 10 - 17 . (canceled) 18 . A laser welding system, comprising: a laser source configured to produce a laser beam; a plurality of beam modifiers, each beam modifier of the plurality of beam modifiers being configured to split the laser beam to generate a collection of heat source points from the laser beam, the heat source points of each collection maintaining a linear profile; and one or more optical elements configured to direct the collections of heat source points in a travel direction along a weld line of a target, and to cause the collections of heat source points to combine based on a position along the weld line, each of the linear profiles forms an oblique angle relative to the travel direction. 19 . The laser welding system according to claim 18 , wherein at least one of the plurality of beam modifiers comprises a diffractive optical element. 20 . The laser welding system according to claim 18 , wherein the target comprises an elongate battery case and cover of a battery. 21 . The laser welding system according to claim 20 , wherein each collection comprises a primary heat source point and a subsidiary heat source point of lower power than the primary heat source point. 22 . The laser welding system according to claim 18 , comprising: a controller; and one or more driving motors configured to act on the one or more optical elements based on a signal from the controller. 23 . The laser welding system according to claim 18 , comprising a second laser source and/or a half-mirror. 24 . The laser welding system according to claim 18 , wherein each of the plurality of beam modifiers is configured to split the laser beam into no more than five output beams. 25 . The laser welding system according to claim 24 , wherein each of the beam modifiers is configured to split the laser beam into no more than three output beams.