| 摘要 |
A method for achieving high-power solid-state lasers by multiple beams combination using cascaded compound laser oscillators, comprising the following steps: 1) Designing a compound resonator to achieve an output beam perpendicular to the axis of oscillation in which a compensating lens is used; 2) Designing beam combination of two independent solid-state lasers in cascaded compound cavities and using 4f optical system to compensate the beam waist separation between two lasers; 3) Based on the first two steps, multiple beams combination of N independent solid-state lasers can be achieved. In the present invention, N output beams emitted from N independent solid-state lasers are completely combined, and the combined beams hold the same waist position, size and divergence along down the same optical axis. Therefore, it can preserve original beam quality with that of individual solid-state lasers. |
| 主权项 |
1. A method for achieving high-power solid-state lasers by multiple beams combination using cascaded compound laser resonators, comprising the following steps: 1) Designing a compound resonator to achieve an output beam perpendicular to the axis of oscillation in which a compensating lens is used; 2) Designing beam combination of two independent solid-state lasers in cascaded compound cavities and using 4f optical system to compensate the beam waist separation between two lasers; 3) Based on the first two steps, multiple beams combination of N independent solid-state lasers can be achieved. The method comprises:
1) Designing a compound resonator equivalent to plane parallel resonator: designing the 1st solid-state laser whose resonator equivalent to plane parallel resonator, the 1st solid-state laser comprises: three high reflectivity mirrors (11, 12, 13), one coupling output mirror (14), one lens (15), one laser head (16), the said coupling output mirror (14) reflect the laser beam at the angle of 90°±5° with respect to the laser head center axis which changes the limitations of plane-parallel resonator coupling output laser in the laser head center axis direction, achieving N laser beams co-axis superimposed output of N solid-state lasers; using the lenses (n5, n6) to shape the laser beams, N superposed output beams hold the same optical axis, the same waist position and size and the same divergence, and the beam quality of combined laser beams is approximately the same as the single all-solid-state laser; 2) Designing parallel combination of two independent solid-state lasers in cascaded compound cavities: the lenses (25, 27) are placed between the laser (1) and (2), and the said two lenses (25, 27) composed of one piece or more pieces lenses have the same effective focal length f2 which between 50 mm-200 mm, and are coated by antireflection film which reflectivity less than 1% at laser wavelength at 0° incidence. We definite that the distance between the axis of the laser rod in the said laser (1) and laser (2) is L1 and the distance between the said lens (27) and (25) is L26, then we obtain the equations:
L1=4f2 and L26=2f2; 3) Achieving parallel combination of N independent solid-state lasers: place two lenses (n5, n7) between the solid-state lasers ((n−1), n), and the two lenses (n5, n7) consisted by one piece or more pieces lenses have the same effective focal length fn which between 30 mm-300 mm. We definite that the distance between the axis of the laser rod in the said laser (n−1) and laser (n) is Ln-1, the distance between the center of laser spot on the said coupling output mirror (n4) and the said high reflectivity mirror (n2) is Ln1, and the distance between the said lens (n7) and (n5) is Ln6, then we obtain the equations:
Ln-1=4fn Ln1=L(n-1)1Ln6=2fn Wherein L(n-1)1 is the distance between the center of laser spot on the said coupling output mirror ((n−1)4) and the said high reflectivity mirror ((n−1)2);
Wherein n and N are integers, and 1≦n≦N. |
