Laser processing method and laser beam irradiation apparatus

1 . A laser processing method using a laser processing apparatus comprising a laser beam source for outputting a laser beam including a plurality of wavelength components, a collimating lens for receiving said laser beam emitted from said laser beam source, a focusing lens for receiving said laser beam collimated by said collimating lens, a collimating lens position adjusting unit for adjusting a position of said collimating lens with respect to said laser beam source, and a focusing lens position adjusting unit for adjusting a position of said focusing lens with respect to said collimating lens, the laser processing method comprising the steps of: preparing a material to be processed; and irradiating said material to be processed with said laser beam focused by said focusing lens in said laser processing apparatus, wherein in the step of irradiating said material to be processed with said laser beam, positions of said collimating lens and said focusing lens are adjusted by said collimating lens position adjusting unit and said focusing lens position adjusting unit, and a wavefront shape of said laser beam received by said focusing lens is adjusted, thereby adjusting a size of a focusing area constituted by a plurality of focuses corresponding to said plurality of wavelength components of said laser beam focused by said focusing lens. 2 . The laser processing method according to claim 1 , wherein said laser beam has a continuous spectrum with a prescribed wavelength width and has a wavelength range of 1 to 1.3 μm. 3 . The laser processing method according to claim 1 , wherein in the step of irradiating said material to be processed with said laser beam, when a reference position is a focal length of a center wavelength component of said collimating lens among the wavelength components included in said laser beam emitted from said laser beam source, said collimating lens is adjusted to be located on the focusing lens side with respect to said reference position within a range of 100 μm to 850 μm, and an interval between said collimating lens and said focusing lens is adjusted within a range of 10 mm to 500 mm. 4 . A laser beam irradiation apparatus that irradiates a material to be processed with a laser beam having a continuous spectrum with a prescribed wavelength width and including wavelength components within a wavelength range of 1 to 1.3 μm, the laser beam irradiation apparatus comprising: an input port for taking in said laser beam from a laser beam source; a collimating lens for collimating said laser beam from said input port; and a focusing lens for focusing said laser beam from said collimating lens, wherein said collimating lens is placed in a collimating lens placement unit and a placement position of said collimating lens with respect to said input port is adjusted by a collimating lens position adjusting unit, a wavefront of each wavelength component of said laser beam is set to be constant at said input port, and when a reference position is a focal length of a center wavelength component of said collimating lens, an interval between said input port and said collimating lens is adjusted such that said collimating lens is located on the focusing lens side with respect to said reference position within a range of 100 μm to 850 μm, and an interval between said collimating lens and said focusing lens is adjusted within a range of 10 mm to 500 mm.