Laser device

The invention claimed is: 1. A laser device, comprising a nonlinear optical crystal having a periodic polarization inversion structure in which a laser beam emitted from a photonic crystal surface emitting laser element is made incident, wherein the photonic crystal surface emitting laser element includes an active layer, upper and lower cladding layers sandwiching the active layer, and a photonic crystal layer provided between the upper or lower cladding layer and the active layer, the photonic crystal layer includes a base layer including a first refractive index medium, and multiple different refractive index regions including a second refractive index medium having a refractive index different from that of the first refractive index medium and arranged in the basic layer, and the multiple different refractive index regions are arranged at a lattice point position in a square lattice set on a main surface of the photonic crystal layer, wherein a plane shape of each of the different refractive index regions is set to a nearly isosceles right triangle, two sides forming a right angle of the nearly isosceles right triangle extends along a longitudinal lattice line and a horizontal lattice line forming the square lattice, and a direction parallel to or vertical to an oblique side of the nearly isosceles right triangle and a direction of polarization in the periodic polarization inversion structure are the same. 2. A laser device, comprising a nonlinear optical crystal having a periodic polarization inversion structure in which a laser beam emitted from a photonic crystal surface emitting laser element is made incident, wherein the photonic crystal surface emitting laser element includes an active layer, upper and lower cladding layers sandwiching the active layer, and a photonic crystal layer provided between the upper or lower cladding layer and the active layer, the photonic crystal layer includes a base layer including a first refractive index medium, and multiple different refractive index regions including a second refractive index medium having a refractive index different from that of the first refractive index medium and arranged in the basic layer, and the multiple different refractive index regions are arranged at a lattice point position in a square lattice set on a main surface of the photonic crystal layer, wherein a plane shape of each of the different refractive index regions is set to a nearly equilateral triangle, a vertical line extending to a base from one of apexes of the nearly equilateral triangle extends along a longitudinal lattice line forming the square lattice, and a direction of the base of the nearly equilateral triangle and a direction of polarization in the periodic polarization inversion structure are the same. 3. A laser device, comprising a nonlinear optical crystal having a periodic polarization inversion structure in which a laser beam emitted from a photonic crystal surface emitting laser element is made incident, wherein the photonic crystal surface emitting laser element includes an active layer, upper and lower cladding layers sandwiching the active layer, and a photonic crystal layer provided between the upper or lower cladding layer and the active layer, the photonic crystal layer includes a base layer including a first refractive index medium, and multiple different refractive index regions including a second refractive index medium having a refractive index different from that of the first refractive index medium and arranged in the basic layer, and the multiple different refractive index regions are arranged at a lattice point position in a square lattice set on a main surface of the photonic crystal layer, wherein a plane shape of each of the different refractive index regions is set to a nearly rectangular trapezoid, two sides forming one of right angles of the nearly rectangular trapezoid extend along a longitudinal lattice line and a horizontal lattice line forming the square lattice, and a direction of a lower bottom of the nearly rectangular trapezoid or a direction forming an angle of 45° to the lower bottom and a direction of polarization in the periodic polarization inversion structure are the same. 4. A laser device, comprising a nonlinear optical crystal having a periodic polarization inversion structure in which a laser beam emitted from a photonic crystal surface emitting laser element is made incident, wherein the photonic crystal surface emitting laser element includes an active layer, upper and lower cladding layers sandwiching the active layer, and a photonic crystal layer provided between the upper or lower cladding layer and the active layer, the photonic crystal layer includes a base layer including a first refractive index medium, and multiple different refractive index regions including a second refractive index medium having a refractive index different from that of the first refractive index medium and arranged in the basic layer, and the multiple different refractive index regions are arranged at a lattice point position in a triangle lattice set on a main surface of the photonic crystal layer, wherein a plane shape of each of the different refractive index regions is set to a nearly isosceles right triangle, and a polarization direction of the photonic crystal surface emitting laser element and a direction of polarization in the periodic polarization inversion structure are the same, and wherein the photonic crystal surface emitting laser element emits a laser beam by independently oscillating without a nonlinear optical crystal. 5. A laser device, comprising a nonlinear optical crystal having a periodic polarization inversion structure in which a laser beam emitted from a photonic crystal surface emitting laser element is made incident, wherein the photonic crystal surface emitting laser element includes an active layer, upper and lower cladding layers sandwiching the active layer, and a photonic crystal layer provided between the upper or lower cladding layer and the active layer, the photonic crystal layer includes a base layer including a first refractive index medium; and multiple different refractive index regions including a second refractive index medium having a refractive index different from that of the first refractive index medium and arranged in the basic layer, and the multiple different refractive index regions are arranged at a lattice point position in a triangle lattice set on a main surface of the photonic crystal layer, wherein a plane shape of each of the different refractive index regions is set to a nearly square, and a polarization direction of the photonic crystal surface emitting laser element and a direction of polarization in the periodic polarization inversion structure are the same, and wherein the photonic crystal surface emitting laser element emits a laser beam by independently oscillating without a nonlinear optical crystal. 6. A laser device, comprising a nonlinear optical crystal having a periodic polarization inversion structure in which a laser beam emitted from a photonic crystal surface emitting laser element is made incident, wherein the photonic crystal surface emitting laser element includes an active layer, upper and lower cladding layers sandwiching the active layer, and a photonic crystal layer provided between the upper or lower cladding layer and the active layer, the photonic crystal layer includes a base layer including a first refractive index medium; and multiple different refractive index regions including a second refractive index medium having a refractive index different from that of the first refractive index medium and arranged in the basic layer, and the multiple different refracti