LD module

The invention claimed is: 1. An LD module, comprising: a multi-mode laser diode, including an active layer, which emits a laser beam from an exit end surface; a multi-mode fiber, including a core, whose entrance end surface the laser beam enters; and an optical system provided between the multi-mode laser diode and the multi-mode fiber, the optical system including: a collimating lens configured to refract, within a plane parallel to the active layer, the laser beam which is divergent light emitted from the multi-mode laser diode so as to convert the laser beam into parallel light; and a light-converging lens configured to convert, into convergent light, the parallel light which has exited the collimating lens, the multi-mode laser diode having an emitter width greater than a diameter, of the core, in the entrance end surface of the multi-mode fiber, the optical system being configured to converge the laser beam so that a diameter, of the laser beam, in the entrance end surface of the multi-mode fiber becomes smaller than the diameter, of the core, in the entrance end surface of the multi-mode fiber, the multi-mode laser diode being configured so that a beam parameter product of the laser beam emitted from the multi-mode laser diode shows a local minimal value which changes in accordance with the emitter width of the multi-mode laser diode, the local minimal value being equal to or smaller than a beam parameter product of the multi-mode fiber, the emitter width of the multi-mode laser diode being set so that the beam parameter product of the laser beam emitted from the multi-mode laser diode is equal to or smaller than the beam parameter product of the multi-mode fiber, the LD module further comprising: a mirror configured to reflect and guide, to the multi-mode fiber, a laser beam emitted from the multi-mode laser diode, the multi-mode fiber being provided so that a central axis of the multi-mode fiber is orthogonal to an optical axis of the laser beam emitted from the multi-mode laser diode. 2. The LD module as set forth in claim 1 , wherein: the emitter width is set so that the beam parameter product of the laser beam emitted from the multi-mode laser diode is equal to the local minimal value. 3. The LD module as set forth in claim 1 , wherein: the emitter width of the multi-mode laser diode is set so that the beam parameter product of the laser beam emitted from the multi-mode laser diode is substantially (½) 1/2 times the beam parameter product of the multi-mode fiber. 4. The LD module as set forth in claim 1 , wherein the mirror is a double mirror including: a first mirror having a first reflective surface configured to reflect the laser beam emitted from the multi-mode laser diode, the first mirror being provided on a base plate; and a second mirror having a second reflective surface configured to reflect the laser beam thus reflected by the first reflective surface, the second mirror being provided on the first mirror. 5. An LD module, comprising: a multi-mode laser diode, including an active layer, which has a transverse mode and emits a laser beam from an exit end surface; a multi-mode fiber, including a core, whose entrance end surface the laser beam enters; and an optical system provided between the multi-mode laser diode and the multi-mode fiber, said LD module being characterized in that the optical system includes: a collimating lens for refracting, within a plane parallel to the active layer, the laser beam which is divergent light emitted from the multi-mode laser diode so as to convert the laser beam into parallel light; and a light-converging lens for converting, into convergent light, the parallel light which has exited from the collimating lens, the multi-mode laser diode has an emitter width greater than a diameter, of the core, in the entrance end surface of the multi-mode fiber, the optical system converges the laser beam so that a diameter, of the laser beam, in the entrance end surface of the multi-mode fiber becomes smaller than the diameter, of the core, in the entrance end surface of the multi-mode fiber, the multi-mode laser diode is configured so that a beam parameter product of the laser beam emitted from the multi-mode laser diode when optical output power is constant shows a local minimum value which changes in accordance with the emitter width of the multi-mode laser diode, the local minimal value being equal to or smaller than a beam parameter product of the multi-mode fiber, and the emitter width of the multi-mode laser diode is set so that the beam parameter product of the laser beam emitted from the multi-mode laser diode is equal to or smaller than the beam parameter product of the multi-mode fiber. 6. The LD module as set forth in claim 5 , wherein: the emitter width is set so that the beam parameter product of the laser beam emitted from the multi-mode laser diode is equal to the local minimal value. 7. The LD module as set forth in claim 5 , wherein: the emitter width of the multi-mode laser diode is set so that the beam parameter product of the laser beam emitted from the multi-mode laser diode is substantially (½) 1/2 times the beam parameter product of the multi-mode fiber. 8. The LD module as set forth in claim 5 , further comprising: a mirror configured to reflect and guide, to the multi-mode fiber, a laser beam emitted from the multi-mode laser diode, the multi-mode fiber being provided so that a central axis of the multi-mode fiber is orthogonal to an optical axis of the laser beam emitted from the multi-mode laser diode. 9. The LD module as set forth in claim 8 , wherein the mirror is a double mirror including: a first mirror having a first reflective surface configured to reflect the laser beam emitted from the multi-mode laser diode, the first mirror being provided on a base plate; and a second mirror having a second reflective surface configured to reflect the laser beam thus reflected by the first reflective surface, the second mirror being provided on the first mirror.