DE1564631C - Optical transmitter for coherent radiation (laser) - Google Patents

Description

The invention relates to an optical transmitter for coherent radiation (laser) from a rod-shaped stimulable medium of any aggregate state, which is optically via a mirror system is excited and within an optical resonator between two of the stimulable medium separate mirrors is arranged, the inner fully reflective and the outer for coupling out the coherent radiation is partially transparent.

In the case of optical transmitters of this type, the mirrors that represent the optical resonator can be very simply Way by mirroring the end faces of the rod-shaped stimulable medium, for example by vapor deposition of dielectric layers. With lasers that use laser beams high pulse power are to be generated, such a mirror coating turns out to be disadvantageous because the laser pulses can easily destroy the mirror. The immediate connection of mirror and stimulable medium therefore has the consequence, when a mirror is destroyed, that each time the stimulable medium has to be exchanged. The use of mirrors that are spatially separated from the stimulable medium and, in the event of destruction, independent of the stimulable medium Medium can be exchanged, is basically possible. However, their arrangement then brings considerable difficulties with it, if the specified installation location with regard to the lighting device is very difficult to access. This is the case, for example, with an elliptical of revolution Given the excitation device using mirrors, in the case of which in the axis of rotation the excitation light source and the rod-shaped stimulable medium are arranged on opposite sides

are net. In this case, the fully reflecting mirror must be that of the excitation light source arranged near the end face of the rod-shaped stimulable medium in the interior of the mirror ellipsoid in a manner that allows it to be adjusted.

The invention is based on the object described in the introduction for an optical transmitter Art, in particular for an optical using an elliptical of revolution excitation mirror system Transmitter, a simple solution for the arrangement of the resonator mirror separated from the stimulable medium to specify.

This object is achieved according to the invention by a mirror holder which is part of a mount is, in which the rod-shaped stimulable medium is embedded on both end faces, wherein at least the fully reflective inner mirror in the one end face of the stimulable medium is releasably supported.

A mirror holder is already known, which is located in the middle on the rod-shaped stimulable Medium supports and at the free ends of their spring arms the mirror at a small distance from his holds a face. Apart from the fact that such a mirror holder is a perfect adjustment of the mirror, it has the disadvantage that it partially opposes the stimulable medium shadows the light from the excitation light source. These disadvantages become in the subject matter of the invention avoided that the mirror holder is part of the socket in which the rod-shaped stimulable Medium is embedded on both ends.

The holder according to the invention is of particular importance in a laser in which the The mirror system is an ellipsoid of revolution, in its axis of rotation exfocally in the area of the one concave mirror vertex the excitation light source and in the area of the other concave mirror vertex the rod-shaped one stimulable medium is arranged. In this case, one is then advantageously at the front Version of the rod-shaped stimulable medium on the part of the excitation light source only as Running mirror mount, while the other end mount in one of the concentric to the axis of rotation of the elliptical mirror system on both sides of the concave mirror vertex extending flange-like approaches of the one-sided central holder of the rod-shaped stimulable medium serves. This is on the one hand the other end-face mount and the flange-like approach that receives it formed into an adjusting device and on the other hand dimensioned such that the rod-shaped stimulable Medium including its one end face mount from outside that accommodates the mirror can be inserted or executed through the flange-like extension into the interior of the concave mirror.

In this way, the mirror held in the one end mount can easily be replaced without the need to open the mirror housing. In addition, she has the frame on the face made it possible to assign the mirror held in it to the stimulable medium with its adjustable one-sided holder in the area of its other end-face version Advantage that this mirror takes part in the adjustment movements of the rod-shaped stimulable medium, that means it does not have to be adjusted separately in each case. For optical reasons, the one in the front Socket held mirror at a small distance, preferably a few millimeters in front of the relevant Front side of the stimulable rod to be arranged. This distance also offers a certain amount Guarantee that if the mirror is destroyed, the end face of the stimulable one opposite it Rod is not affected.

The parallelism between the end face of the stimulable rod and the mirror surface of the Her opposite mirror can be achieved with particularly high accuracy if dei mutual distance between the end face of the stimulable rod and the mirror by a Spacer ring, preferably made of glass, is set.

In a preferred exemplary embodiment, the front mount that accommodates the mirror is on the side opposite the rod-shaped stimulable medium as a threaded bushing for guidance a threaded screw formed which the mirror against its predetermined support in the socket over a guide part and an elastic sealing ring inserted between the guide part and the mirror presses on.

The permissible load capacity of a resonator mirror with regard to the laser pulses to be reflected by it can be increased significantly in a further development of the invention that instead of one with a reflective layer provided glass body a 90 ° prism is used, which is in the front Version with its hypotenuse surface against the relevant end face of the stimulable medium is aligned.

In this case, the front mount, which accommodates the 90 ° prism, can again advantageously unites on the side opposite the stimulable medium as a threaded bushing for guidance Threaded screw be formed. The threaded screw presses the 90 ° prism against his predetermined support in the socket over a guide part, an elastic sealing ring and a U-shaped prism holder, in which the free leg ends of the U-shaped prism holder Have 45 ° inclined surfaces on which the 90 ° prism rests with its cathetus surfaces.

As relevant studies on which the invention is based have shown, the in the to for inversion excited stimulable medium triggered, running in the axial direction of the resonator coherent waves have a preferred plane of polarization. Because of this, they are reflective Properties of the 90 ° prism depend on the angle that its roof edge with this preferred plane of polarization. The conditions are most favorable when the 90 ° prism is aligned with its roof edge parallel to the preferred plane of polarization. As this preferred If the polarization plane is not fixed from the outset, it is advisable to use the U-shaped prism holder than to form a punch rotatable in the axis of the optical resonator.

In a preferred embodiment, the rotatable punch has one through the sealing ring and the guide part through the shaft with a screwdriver slot on the face. It is there makes sense to use the threaded screw in the interest of accessibility to the free end of the punch shaft to be designed as a threaded ring screw.

5 6

Can be used on the basis of the representation shown in the drawing. The stimulable

Examples of management is the invention in the following medium here is a ruby rod 5 'on pages

will be explained in more detail. It shows the socket 7 has a sapphire attachment 12. The Sa-

F i g. I the schematic representation of an opti-phiransatz 12 is in a recess 13 of the mount 7

see transmitter with an elliptical of rotation 5 embedded and firmly connected to it. On the

Mirror having excitation device, opposite side is the version 7 with a

F i g. 2 an embodiment according to the invention provided internal thread in which a knurled screw

dung, .14 is performed. The knurled screw 14 presses with it

F i g. 3 a further embodiment according to its lower end via a guide part 15 and

Invention. io a sealing ring 16 against the mirror 17. The

The excitation device of the optical transmitter mirror 17 is located on the opposite of the knurled screw.

according to FIG. 1 uses a rotational elliptical overlying side of the mount 7 on one here

see concave mirror 1, the annular projection 18 provided on both sides, the planar

trisch to the axis of rotation in flange-like projections 2 parallel to the face of the ruby rod 5 'or the

and 3 passes. The flange-like approach 3 serves 15 sapphire approach 12 is aligned. The sealing ring

here the recording and concentric holder 16 between the mirror 17 and the guide part

the excitation light source 4, which is rod-shaped, fulfills both the function of an elastic one

det and exfocally in the axis of rotation arranged intermediate member as well as a seal of the

is. In the same way, the flange-like approach 2 mirror space serves against which the ruby rod enclosing

on the opposite side of the concentric 20 Hch of its sockets flushing cooling water. the

Holder of the rod-shaped stimulable Me- sapphire attachment 12 has only the purpose of a Ab-

diums 5, which is also exfocally in the axis of rotation shadow of the ruby rod 5 'by the necessary

is arranged. Avoid encircling mounts with this type of excitation arrangement. Provided

The light source and stimulable medium have the resulting low shadow effect in

Rotational elliptical concave mirror The property that can be purchased is the sapphire base

Rod-shaped excitation light source 4 in rod conveyor 12 is also omitted.

mige stimulable medium 5 to map. Both a further embodiment that a further the Excitation light source 4 as well as the rod-shaped formation of the invention is shown in FIG. 3 stimulable Medium 5 are given by a quartz. The stimulable medium here consists of Enclosed glass tube 6, which together with the 30 a ruby rod 5 ", which is surrounded by a sapphire jacket 19 flange-like projections 2 and 3 and their connection is surrounded. The socket 7 representing a socket nozzle 2 'and 3' forms a cooling channel. The rod is on the side of the ruby rod in turn with a shaped stimulable medium 5 is provided on both face inner recess 13 ', into which the sapphire sides each embedded in a socket 7 and 8, penetrated by jacket 19 with its outer recess 13 " the socket 7 engages on the side of the excitation light 35. Instead of the knurled screw 14 after the source 4 as a mirror mount according to the invention F i g. 2 is in the internal thread of the socket 7 on the is trained. The socket 8, via which the stimulable medium is opposite to the stimulable medium face medium 5 is supported on one side and centrally, an eyebolt 20 is provided over a side is tubular for the exit of the laser beam guide part 15 ', a sealing ring 16' and a forms and goes at the rear end in an adjustment 40 punch 21, the 90 ° representing the mirror here - head 9 over. The end face of the adjustment head 9 is the prism 22 with its hypotenuse surface against the designed spherically and lies on a union the distance between the 90 ° prism and the lock nut 10, the face of the stimulable medium overlying the passage of the laser beam has a concentric opening 11. The spacer ring 23 that defines the radius is pressed on. The one for one the end-face spherical surface of the adjustment head 9 is 45 position of the roof edge of the 90 ° prism 22 with respect to it dimensioned that the rod-shaped stimulable metal borrowed the preferred plane of polarization of rubindium 5 with a displacement of the adjusting head 9 rod rotatably executed punch 21 opens with regard to the union nut 11 in its heavy side of the 90 ° prism 22 in a U-shaped prism point is pivoted. To attach to the bracket in the socket 7, the 45 ° beveled edges To get close to the mounted mirror, the rota- 50 can use the free leg ends on the cathetus surfaces tion elliptical mirror 1 remain closed because the prism is applied. For easier operation of the the rod-shaped stimulable medium including a rotatable stamp 21 is its shaft borrowed its sockets 7 and 8 after unscrewing the through the sealing ring 16 'and the guide part Union nut led out from the flange-like projection 2 after 15 'up to the level of the eyebolt 20 can be pulled out of this flange-like extension at the rear and at its free end with a screw. puller slot 24 provided. A longitudinal groove 25 of the guide

The F i g. 2 shows, in section, part of a stimulation part 15 ′ into which a part guided in the mount 7

adjustable medium rod, which engages according to the invented grub screw 26, prevents an un-

tion on both sides in sockets 7 and 8 a wanted rotary movement of the punch 21 and thus the

is serene and in accordance with FIG. 1 60 90 ° prism when tightening the eye bolt 20.

1 sheet of drawings

Claims (8)

Patent claims: 1. Optical transmitter for coherent radiation (laser) from a rod-shaped stimulable Medium, any aggregate state, which is optically stimulated via a mirror system and within an optical resonator between two separated from the stimulable medium Mirrors is arranged, the inner fully reflective and the outer for coupling out the coherent radiation is partially transparent, characterized by a mirror holder, which is part of a socket in which the rod-shaped stimulable medium (5) on both End faces is let in, with at least the fully reflective inner mirror (17, 22) in the an end mount (7) of the stimulable medium is detachably held. 2. Optical transmitter according to claim 1, characterized in that the mutual distance between an end face of the stimulable medium and the one opposite it, mirror (17, 22) held in the front mount (7) by a spacer ring (23), preferably made of glass. 3. Optical transmitter according to claim 1 or 2, characterized in that the end face, the Mirror (17, 22) receiving mount (7) on the opposite of the stimulable medium Side is designed as a threaded bushing for guiding a threaded screw (14) that the mirror against its predetermined support in the version via a guide part (15) and a between the guide part and the mirror inserted elastic sealing ring (16) presses. 4. Optical transmitter according to one of the preceding claims, characterized in that that the one held in the frontal version. Mirror one with its hypotenuse surface against the relevant end face of the stimulable medium (5 ") is aligned 90 ° prism (22). 5. Optical transmitter according to claim 4, characterized in that the end face, the 90 ° - Prism (22) receiving socket (7) on the opposite of the stimulable medium Side is designed as a threaded bushing for guiding a threaded screw that has the 90 ° prism against its predetermined support in the socket via a guide part (15 '), an elastic one Sealing ring (16 ') and a U-shaped prism holder presses on, in which the free leg ends of the U-shaped prism holder have 45 ° inclined surfaces on which the 90 ° prism rests with its cathetus surfaces. 6. Optical transmitter according to claim 5, characterized in that the U-shaped Prismcnhalterung is designed as a stamp (21) rotatable in the axis of the optical resonator. 7. Optical transmitter according to claim 5, characterized in that the rotatable stamp (21) with a shaft passed through the sealing ring (16 ') and the guide part (15') front screwdriver slot (24) and that the threaded screw as one of the accessibility the threaded ring screw (20) ensuring the free end of the punch shaft is. 8. Optical transmitter according to one of the preceding claims, in which the mirror system is an ellipsoid of revolution, in its axis of rotation exfocally in the area of the one concave mirror vertex the excitation light source and in the area of the other concave mirror vertex the rod-shaped one stimulable medium is arranged, characterized in that one of the front mounts (7) of the rod-shaped stimulable medium on soaps of the excitation light source (4) only as Mirror holder is executed, while the other end face mount (8) in one of the concentric to the axis of rotation of the elliptical mirror system on both sides of the concave mirror vertex extending flange-like lugs (2, 3) of the unilateral centric holder of the stimulable Medium (5) is used and that the other end-face version (8) and the one receiving it flange-like extension (2) formed on the one hand to an adjusting device and on the other hand are dimensioned such that the stimulable medium (5) including its receiving the mirror an end mount (7) from outside through the flange-like extension (2) through into or out of the interior of the concave mirror.