KR970048680A - Focusing optical system for laser diode - Google Patents

Abstract

The present invention focuses on a laser diode focused optical system for making a circular shape requiring the shape of a focused beam when the ratio of the length of the horizontal axis (X) and the vertical axis (Y) of the beam diverging region of the laser diode (Laser-Diode) is different. According to the present invention, the meniscus-type first and second lenses 10 and 20 having a predetermined curvature on both sides and the third convex third lens 30 are arranged at a predetermined interval on a straight line to form a third lens. Maniscus-type fourth and fifth lenses 40 and 50 having a predetermined curvature on both sides of the first lens group 100 are configured so that the direction of the beams in parallel through 30 passes in parallel. And the second convex sixth lens 60 at a predetermined interval on a straight line to configure a second lens group 200 to focus the beam through the sixth lens 60. 100 and the second lens group 200 are arranged in a straight line at a predetermined interval, so that it is not expensive cylinder lenses. Can use inexpensive plain spherical it is easy to design and machine the curvature of the lens, and save the airborne processing of the lens and is characterized in that in order to facilitate the placement of the lens.

Description

Focusing optical system for laser diode

Since this is an open matter, no full text was included.

4 (a) and 4 (b) are traces of vertical focusing and traces of horizontal focusing of the laser optical focusing optical system according to the present invention, respectively.

6 is an exemplary view through a linewidth selection apparatus in the focusing optical system of the present invention.

Claims (16)

A laser diode (LD) for emitting a laser beam; The ratio of the length of the horizontal axis (X) to the vertical axis (Y) is set differently so that the vertical divergence angle ( ) Is the horizontal divergence angle ( A diverging region EA formed to be larger than); The meniscus type first and second lenses 10 and 20 and the planar convex third lens 30 having both surfaces having predetermined curvatures are arranged at a predetermined interval on a straight line to form the third lens 30. A first lens group 100 configured to allow the direction of the beam to pass in parallel; The sixth lens 60 may be disposed by arranging Maniscus type fourth and fifth lenses 40 and 50 and planar convex sixth lens 60 having predetermined curvatures on both sides at predetermined intervals in a straight line. And a second lens group (200) configured to focus the direction of the beam through the first lens group, wherein the first lens group and the second lens group are arranged at a predetermined interval in a straight line. The focusing optical system of claim 1, wherein the first lens has a curvature of −0.152882 and a second curvature of −0.175202. The focusing optical system of claim 1, wherein the second lens has a curvature of −0.055759 and a second curvature of −0.097948. The focusing optical system for laser diodes of claim 1, wherein the third lens has a curvature of 0.000000 and a second curvature of −0.045241. The focusing optical system of claim 1, wherein the fourth lens has a curvature of 0.136463 on the first surface and a curvature of 0.154143 on the second surface. The focusing optical system of claim 1, wherein the fifth lens has a curvature of 0.152882 on the first surface and a curvature of 0.175202 on the second surface. The focusing optical system for a laser diode of claim 1, wherein the sixth lens has a curvature of 0.045241 on a first surface and a curvature of 0.000000 on a second surface. The method of claim 1, wherein each of the lenses (10) 60, the center distance (Distance) of the first surface and the second surface is 2.0 Focusing optical system for a laser diode, characterized in that. The center distance from the diverging region EA of the laser diode LD to the first surface 11 of the first lens 10 is 6.3118. Focusing optical system for a laser diode, characterized in that. The center distance from the second surface 12 of the first lens 10 to the first surface 21 of the second lens 20 is 0.2. Focusing optical system for a laser diode, characterized in that. The center distance of the second surface 22 of the second lens 20 to the first surface 31 of the third lens 30 is 0.2. Focusing optical system for a laser diode, characterized in that. The center distance from the second surface 32 of the third lens 30 to the first surface 41 of the fourth lens 40 is 15.0. Focusing optical system for a laser diode, characterized in that. The center distance from the second surface 42 of the fourth lens 40 to the first surface 51 of the fifth lens 50 is 1.5. Focusing optical system for a laser diode, characterized in that. The center distance from the second surface 52 of the fifth lens 50 to the first surface 61 of the sixth lens 60 is 1.5. Focusing optical system for a laser diode, characterized in that. The center distance from the second surface 62 of the sixth lens 60 to the light spot LS is 30.191. Focusing optical system for a laser diode, characterized in that. The line width selection device 300 is interposed between the second surface 32 of the third lens 30 and the first surface 41 of the fourth lens 40. Focusing optical system for a laser diode, characterized in that. ※ Note: The disclosure is based on the initial application.