Laser module and laser processing apparatus

1 - 8 . (canceled) 9 . A laser module comprising: a plurality of photonic crystal surface-emitting laser elements arranged on a coplanar surface, each of the laser elements being configured to emit a light beam; a concave lens array configured to enlarge the beam width of the light beam emitted from the laser elements; a collimating lens array having a plurality of apertures that form collimating lenses to collimate the light beams having the enlarged beam width through the concave lens array; a condenser lens configured to converge the light beams collimated by the collimating lens array; and an optical fiber having an incident end on which the light beams converged by the condenser lens are incident and an exit end from which the light beams exit, wherein the apertures of the collimating lens array are designed to pass light beams in an energy range of from 94.0% to 99.5% inclusive of 100% energy of light beams that are incident on the collimating lens array. 10 . The laser module according to claim 9 , wherein the apertures of the collimating lens array are arranged adjacent to each other, and the photonic crystal surface-emitting laser elements are arranged at a pitch twice as large as the size of each of the apertures of the collimating lens array. 11 . The laser module according to claim 9 , wherein in a ray matrix expressed by the following expression defined in a range from the plurality of photonic crystal surface-emitting laser elements to the condenser lens, element C is zero, and wherein a focal length of the condenser lens equals to a distance from a center of the condenser lens to an incident end of the optical fiber   ( A B C D ) 12 . The laser module according to claim 11 , wherein element B in the ray matrix is zero. 13 . The laser module according to claim 9 , wherein the concave lens array is disposed immediately after the laser elements. 14 . The laser module according to claim 9 , wherein each of the photonic crystal surface-emitting laser elements configured to emit a Gaussian-shaped single-mode beam. 15 . A laser processing apparatus comprising: the laser module according to claim 9 ; and a processing head for irradiating a workpiece with a light beam output from the optical fiber to a workpiece. 16 . A laser module comprising: a plurality of photonic crystal surface-emitting laser elements arranged on a coplanar surface, each of the laser elements being configured to emit a light beam; a concave lens array configured to enlarge the beam width of the light beam emitted from the laser elements; a collimating lens array having a plurality of apertures that form collimating lenses to collimate the light beams having the enlarged beam width through the concave lens array; a condenser lens configured to converge the light beams collimated by the collimating lens array; and an optical fiber having an incident end on which the light beams converged by the condenser lens are incident and an exit end from which the light beams exit, wherein the apertures of the collimating lens array each have a size ranging from 0.6 times to 0.85 times inclusive a Gaussian beam radius of a light beam that is incident on each of the apertures. 17 . The laser module according to claim 16 , wherein the apertures of the collimating lens array are arranged adjacent to each other, and the photonic crystal surface-emitting laser elements are arranged at a pitch twice as large as the size of each of the apertures of the collimating lens array. 18 . The laser module according to claim 16 , wherein in a ray matrix expressed by the following expression defined in a range from the plurality of photonic crystal surface-emitting laser elements to the condenser lens, element C is zero, and wherein a focal length of the condenser lens equals to a distance from a center of the condenser lens to an incident end of the optical fiber   ( A B C D ) 19 . The laser module according to claim 18 , wherein element B in the ray matrix is zero. 20 . The laser module according to claim 16 , wherein the concave lens array is disposed immediately after the laser elements. 21 . The laser module according to claim 16 , wherein each of the photonic crystal surface-emitting laser elements is configured to emit a Gaussian-shaped single-mode beam. 22 . A laser processing apparatus comprising: the laser module according to claim 16 ; and a processing head for irradiating a workpiece with a light beam output from the optical fiber to a workpiece.