CN202616596U - Laser unstable cavity for outputting solid light beam - Google Patents

Abstract

The utility model discloses a laser unstable cavity for outputting a solid light beam, comprising a laser device body including a convex mirror and a concave mirror which are oppositely arranged; an inner-conical-surface annular reflecting mirror arranged between the convex mirror and the concave mirror, and including a reflecting mirror surface which presents an inwards-sunken conical-surface shape, and a mirror body which is a hollow annular body; and an outer-conical-surface reflecting mirror arranged below the optical axis of the unstable cavity, and oppositely placed with the inner-conical-surface annular reflecting mirror, wherein the reflecting mirror surface of the outer-conical-surface reflecting mirror presents an outwards-projected conical-surface shape, and the connection line of the centre Q of the reflecting mirror surface and the centre P of the annular reflecting mirror surface is vertical to the optical axis of the unstable cavity. The utility model further discloses an application for the laser unstable cavity. Via the device and the method disclosed by the utility model, conversion for the annular light beam output by a laser device with the unstable cavity can be realized by virtue of a reflecting optical component, so as to obtain a circular solid light beam output; and moreover, the provided device is simple in structure and stable in working.

Description

A kind of laser unstable resonator of exporting solid light beam

Technical field

The utility model belongs to the superpower laser technical field, particularly a kind of laser unstable resonator and application thereof of exporting solid light beam based on chamber outer light beam shaping technique.

Background technology

Superpower laser with high light beam quality all has very important application prospect in industry and military applications field.For superpower laser; The most important thing is how to obtain big as far as possible mode volume and good transverse mode distinguishing ability; Realizing the running of high power single mode, thus can be from active medium high efficiency extraction energy, the laser output that can keep high light beam quality again.In order to obtain high-power laser output, often need adopt the active medium of big volume and big lateral dimension, to guarantee that optical element is realized high-power laser output in the chamber under the prerequisite of not Stimulated Light damage.

Stable cavity can only obtain to operate at basic mode (TEM at the optical axis center near zone ₀₀The Gaussian beam of nearly diffraction limit mould), its mode volume is limited, and is not suitable for superpower laser.

To having the laser of big volume and big lateral dimension active medium, generally adopt the unsteady cavity technology to obtain single transverse mode output.But the coupling of conventional unstable cavity laser is output as the ring-shaped light spot structure, and after this annular hollow beam is focused on, the power density of its focal spot center will be more much lower than the solid light beam with equal-wattage and spot size; Likewise, the far-field divergence angle of this annular hollow beam also will finally limit its application far above diffraction limit.

In order to eliminate the central blackening of conventional unstable cavity laser output annular beam, people have proposed many diverse ways, from big volume active medium, extract the high energy laser beam near diffraction limit in the hope of realizing.The most representative variable reflectivity mirror (common comprise Gaussian, ultra Gaussian, the parabolic type etc.) unsteady cavity and 90 that surely belongs to ⁰Bundle rotary annular unsteady cavity (Unstable Resonator with 90 ⁰Beam Rotation).

Adopt the unsteady cavity of variable reflectivity mirror, can reach the high energy laser beam output of nearly diffraction limit in theory as output coupling mirror.But as far as superpower laser, the reflectivity-variable dielectric film of making high damage threshold is very difficult; And different dielectric film thickness also can cause the phase distortion of output beam, so the reflectivity-variable output coupling mirror has certain limitation in practical application.

People such as USAF Weapons Laboratory A.H.Paxton are at " Applied Optics " 1986 the 25th volumes the 17th phase " Unstable resonators with 90 ⁰Beam rotation " proposed a kind of 90 in the literary composition ⁰Bundle rotary annular unsteady cavity, this chamber be owing to utilized the light beam rotation technique can be to the inhomogeneities of active medium and the averaging of aberration of minute surface, thereby obtain the full spot laser beam output of rectangle of high light beam quality.But because the output coupling mirror in this chamber is the edge of a knife, output beam is a Filled Rectangle, in strong infrared laser transmission, can only adopt the emission of inclined shaft shape reflecting telescope; And the design difficulty of inclined shaft reflecting telescope is big, involves great expense.

The utility model content

The purpose of the utility model provide a kind of export solid light beam laser unstable resonator, based on optical element light beam is carried out the reconstruct shaping, make the core reconstruct of common unsteady cavity output annular beam become the solid light bundle.

The technical scheme that this purpose of realization the utility model is adopted is following:

A kind of laser unstable resonator of exportable solid light beam comprises:

Laser bodies, it comprises by what convex mirror and concave mirror positioned opposite constituted and just props up pseudo confocal unsteady resonator, and the line of centres of this convex mirror and concave mirror forms the optical axis of unsteady cavity;

The internal conical surface Perimeter Truss Reflector, it is arranged in the laser bodies, and between said convex mirror and concave mirror, the mirror surface of this internal conical surface Perimeter Truss Reflector is the taper seat shape that caves inward, and the mirror body of this speculum is the annular solid of hollow; With

The outer conical surface speculum; It is arranged on the optical axis below of unsteady cavity; And place relatively with said internal conical surface Perimeter Truss Reflector; Wherein the mirror surface of this outer conical surface speculum is the taper seat shape to outer lug, and its mirror surface central point is vertical with the optical axis of said unsteady cavity with the line of Perimeter Truss Reflector minute surface central point;

It is characterized in that; Be transferred on the convex mirror pass the hollow mirror body of speculum through a said concave mirror beam reflected part after; To continue vibration; Another part incides on the mirror surface of internal conical surface Perimeter Truss Reflector; And reflex on the mirror surface of said outer conical surface speculum, through regulating said internal conical surface Perimeter Truss Reflector and outer conical surface speculum, can realize the solid light beam of mirror surface output from said outer conical surface speculum along the relative distance on the two central point line directions to suitable size.

As the improvement of the utility model, the mirror surface of said internal conical surface Perimeter Truss Reflector has identical shaft section drift angle with the mirror surface of outer conical surface speculum, and is the obtuse angle.

As the improvement of the utility model, said internal conical surface Perimeter Truss Reflector all becomes 45 ° of angles with the rotation axes of symmetry of said outer conical surface speculum with the optical axis of said unsteady cavity.

Improvement as the utility model; The bottom of described internal conical surface Perimeter Truss Reflector has the first annular cooling water groove; The annular water tank cover plate that has water inlet and delivery port covers on this first annular cooling water groove, and is connected with the bottom seals of said internal conical surface Perimeter Truss Reflector.

Improvement as the utility model; The rear portion of described outer conical surface speculum has the second annular cooling water groove; The circular channels cover plate that has water inlet and delivery port covers on this second annular cooling water groove, and is connected with the bottom seals of said outer conical surface speculum.

Another technical scheme that this purpose of realization the utility model is adopted is following:

A kind of laser unstable resonator of exportable solid light beam comprises:

Laser bodies, it comprises by what convex mirror and concave mirror positioned opposite constituted and just props up pseudo confocal unsteady resonator, and the line of centres of this convex mirror and concave mirror forms the optical axis of unsteady cavity;

The outer conical surface lens, it is arranged on outside the laser bodies, and is positioned at said convex mirror rear; This outer conical surface lens mirror body is column; Mirror body one end end face is the plane, and other end end face is the taper seat of outside protrusion, and the optical axis of its rotation axes of symmetry and unsteady cavity is on same straight line; With

The internal conical surface lens; Its coaxial outer conical surface lens rear that is arranged on, these internal conical surface lens are column, are the taper seat shape that caves inward towards the end face of outer conical surface lens; The other end is the plane; The rotation axes of symmetry of these internal conical surface lens and the optical axis of unsteady cavity are on same straight line, and the light beam after said outer conical surface lens refraction is injected on the taper seat that caves inward of these internal conical surface lens, and the planar end through the other end after the transmission penetrates;

It is characterized in that; Light beam is by the outside reflex time of concave mirror; A part reflexes on the convex mirror and in resonant cavity, to continue concussion, and another part is parallel to be mapped on the planar ends of outer conical surface lens of convex mirror back, reflects to optical axis direction through the taper seat end that is transmitted through the other end and after reflecting; The light beam of refraction is injected on the taper seat that caves inward of internal conical surface lens; Through regulate the internal conical surface lens on the optical axis direction of unsteady cavity with distance to the suitable size of outer conical surface lens, can make that when these internal conical surface lens were transmitted through the planar end of the other end, the light beam of outgoing was solid light beam.

As the improvement of the utility model, said outer conical surface lens have identical critical angle c with the taper seat of said internal conical surface lens.

As the improvement of the utility model, the taper seat of said outer conical surface lensed endface and the taper seat of these internal conical surface lens have identical shaft section vertex angle theta ', and 180 °-2c < θ ' < 180 °.

The utility model is the annular hollow beam of unsteady cavity output, and the effect of interior (or outer) the taper seat mirror through having certain angle is concentrated light beam gradually to the optical axis position of laser beam; Utilize then with said in outward (or interior) taper seat mirror of (or outer) taper seat mirror with same axis cross section drift angle near the light beam that concentrates on the laser beam optical axis is led again; To obtain light beam output along the optical axis direction transmission; And carry out fine adjustment along the relative position of optical axis direction through internal (or outer) taper seat mirror and outer (or interior) taper seat mirror, realize circular solids shaping light beam output along the optical axis direction transmission.

The utility model utilizes two cylindrical taper seat mirrors, and beam path is carried out twice adjustment respectively.Wherein, it is taper seat that each cylindrical taper seat mirror all has an end face, and two taper seats have identical shaft section drift angle.Two cylindrical taper seat mirrors can be speculum, also can be lens.When it made speculum, two cylindrical taper seat mirrors were the hollow ring body, and two taper seat summit lines are vertical with optical axis; When it made lens, two cylindrical taper seat mirrors were the cylinder bodily form, and two taper seat summit lines and optical axis are on same straight line.

When two cylindrical taper seat mirrors were speculum, the front end face of first mirror was an internal conical surface, and the rear end face of second mirror is the outer conical surface mirror; When two cylindrical taper seat mirrors were lens, the front end face of first mirror was the plane, and rear end face is an outer conical surface, and the front end face of second mirror is an outer conical surface, and rear end face is the plane.

The practical implementation principle is following: (or outer) taper seat mirror entad led to the hollow hollow beam of unstable cavity laser output in (1) utilized, and made it to concentrate to the central optical axis of laser beam; (2) utilize outer (or interior) conical surface mirror that near the above-mentioned light beam that concentrates on the laser beam optical axis is led again, obtain shaping light beam output along the optical axis direction transmission; (3) two taper seat mirrors are carried out fine adjustment along the relative position of optical axis direction, obtain circular solids shaping light beam output along the optical axis direction transmission.

The compared with prior art main following advantage of tool of the utility model:

(1) (big in the conventional unsteady cavity plurality of advantages of reservation like mode volume; Transverse mode resolution is high) prerequisite under; Utilize reflection type optical element that the core of unstable cavity laser output annular beam is carried out reconstruct, to realize the high energy circular solids laser beam output of high light beam quality.

(2) directly utilize the taper seat mirror to carry out shaping, do not increase the structure difficulty of unsteady cavity basically.

(3) relate generally to the reflection or the application of transmissive optical element, so it can bear very high laser power, be suitable for the beam shaping of high power laser light application scenario.

(4) processing of related reflection of the utility model or transmissive optical element is simple and convenient, low cost of manufacture.

The utility model is (big like mode volume in the conventional unsteady cavity plurality of advantages of reservation; Transverse mode resolution is high) prerequisite under; Utilize reflection or transmissive optical element can realize the core of unstable cavity laser output annular beam is carried out reconstruct, obtain the high energy circular solids laser beam output of high light beam quality; And the apparatus structure that is provided is simple, and working stability has especially overcome prior art and need obtain the deficiency of solid laser beam output through the structure of transforming conventional unsteady cavity.

Description of drawings

Fig. 1 is the structural representation of the utility model embodiment 1;

Fig. 2 is the structural representation of the utility model embodiment 2.

Fig. 3 is the ring-shaped light spot sketch map of unstable cavity laser output;

The circular solids hot spot sketch map that Fig. 4 exports for the unsteady cavity in the utility model;

Fig. 5 has annular cooling water groove, annular water tank structure of cover plate sketch for the internal conical surface Perimeter Truss Reflector;

Fig. 6 is the right view of annular cooling water groove among Fig. 5;

Fig. 7 is the right view of annular water tank cover plate among Fig. 5;

Fig. 8 has annular cooling water groove, circular channels structure of cover plate sketch for the outer conical surface speculum in the unsteady cavity in the utility model;

Fig. 9 is the left view of annular cooling water groove among Fig. 8;

Figure 10 is the left view of circular channels cover plate among Fig. 8.

Embodiment

Below in conjunction with accompanying drawing the utility model is done further to specify.

Embodiment 1

As shown in Figure 1, present embodiment provide based on the solid light beam of output the unstable cavity laser of laser unstable resonator technology comprise laser bodies 1, internal conical surface Perimeter Truss Reflector 501, outer conical surface speculum 601 and accurate displacement mechanism 7.This laser bodies 1 comprises by what convex mirror 4 and concave mirror 3 positioned opposite constituted just props up pseudo confocal unsteady resonator.

Wherein, Internal conical surface Perimeter Truss Reflector 501 with shaft section vertex angle theta is set between convex mirror that just props up pseudo confocal unsteady resonator 4 and concave mirror 3; The minute surface of internal conical surface Perimeter Truss Reflector 501 is the taper seat shape that caves inward, and is hollow in the middle part of the mirror body, is the annular solid of hollow; So that light beam in resonant cavity by convex mirror 4 when concave mirror 3 directions are transmitted, the mirror body that this speculum 501 can be passed in the marginal portion of light beam is transferred on the convex mirror 4.

The rotation axes of symmetry a1 of speculum 501 minute surfaces with become 45 ° of angles by convex mirror 4 with the formed unsteady cavity optical axis of concave mirror 3 lines of centres.

Outer conical surface speculum 601 is arranged on unsteady cavity optical axis below, and itself and said internal conical surface Perimeter Truss Reflector 501 are placed relatively.The minute surface of outer conical surface speculum 601 is the taper seat shape to outer lug, and has same axis cross section vertex angle theta with speculum 501, and two minute surfaces are complementary shape, and minute surface center Q is vertical with said unsteady cavity optical axis with the line of Perimeter Truss Reflector 501 minute surface center P.

The rotation axes of symmetry of internal conical surface Perimeter Truss Reflector 501 becomes 45 ° of angles with the optical axis of said unstable cavity laser 1, and outer conical surface speculum 601 is parallel with internal conical surface Perimeter Truss Reflector 501,

Internal conical surface Perimeter Truss Reflector 501 and outer conical surface speculum 601 can be regulated through said outer conical surface speculum accurate displacement mechanism 7 along the relative position on the PQ line direction.

When light beam in resonant cavity by convex mirror 4 when concave mirror 3 directions are transmitted, will be expanded bundle M doubly (wherein, M is how much magnification ratios of unsteady cavity); The output that is coupled is reflected through internal conical surface Perimeter Truss Reflector 501 in the marginal portion 2 of expanding bundle back light beam when reverse transfer, residue core light beam is fed back to continuation participation vibration in the resonant cavity.Because internal conical surface Perimeter Truss Reflector 501 shaft section vertex angle theta to the converging action of light beam, will be concentrated to its axis (being PQ line shown in Figure 1) position, place, center in the transmission process outside the chamber through the annular hollow beam of speculum 501 coupling outputs gradually; Utilize and lead again, to obtain along the shaping light beam output that is parallel to the transmission of unsteady cavity optical axis direction with near 601 pairs of light beams that shrink central axis of outer conical surface speculum of said internal conical surface Perimeter Truss Reflector 501 corresponding parallel installations; Through conical reflector 601 center Q and internal conical surface Perimeter Truss Reflector 501 center P can realize the output of circular solids laser beam along carrying out fine adjustment perpendicular to the distance B (see figure 1) of unsteady cavity optical axis direction to foreign round.

Internal conical surface Perimeter Truss Reflector 501 is rotation symmetric form structure reflecting mirror with outer conical surface speculum 601, makes simply, even can directly adopt ultra-precise cutting to process.

Like Fig. 4 ~ shown in Figure 6; The rear portion of internal conical surface Perimeter Truss Reflector 501 has annular cooling water groove 11; On annular water tank cover plate 8, have water inlet 9 and delivery port 10, annular water tank cover plate 8 can adopt welding manner to be tightly connected with the bottom of said internal conical surface Perimeter Truss Reflector 501.

Like Fig. 7 ~ shown in Figure 9; The rear portion of outer conical surface speculum 601 has annular cooling water groove 15; On circular channels cover plate 12, have water inlet 13 and delivery port 14 equally, circular channels cover plate 12 can adopt welding manner to be tightly connected with the bottom of said outer conical surface speculum 601.

The light beam 2 of unstable cavity laser 1 output along the PQ line direction transmission perpendicular to said unstable cavity laser 1, and is concentrated to the PQ link position after internal conical surface Perimeter Truss Reflector 501 turns to gradually; Utilize 601 pairs of outer conical surface speculums to concentrate near the light beam of PQ line and lead again, to obtain shaping light beam output along the optical axis direction transmission; Carry out fine adjustment through the outer conical surface speculum accurate displacement mechanism relative position of 7 pairs of said outer conical surface speculums 601 on the PQ direction, realize circular solids shaping light beam output along the optical axis direction transmission.

Embodiment 2

As shown in Figure 2, the technological unstable cavity laser of laser unstable resonator based on the solid light beam of output that present embodiment provides comprises laser bodies 1, outer conical surface lens 502, internal conical surface lens 602 and accurate displacement mechanism 7.This laser bodies 1 comprises by what convex mirror 4 and concave mirror 3 positioned opposite constituted just props up pseudo confocal unsteady resonator.

In the present embodiment, outer conical surface lens 502 are arranged on convex mirror 4 rears, and these lens 502 mirror bodies are column; Mirror body one end end face is the plane; Other end end face is the taper seat of outside protrusion, and the shaft section drift angle of this conical surface is θ ', and the optical axis of its rotation axes of symmetry and unsteady cavity is on same straight line.Light beam in resonant cavity by concave mirror 3 outside reflex times; A part is transmitted into and in resonant cavity, continues concussion on the convex mirror 4; Another part is parallel to be mapped on the planar ends of lens 502 of convex mirror 4 back, concentrated to optical axis direction through the taper seat end and the refraction back that transfer to the other end.

It is placed with internal conical surface lens 602 relatively at outer conical surface lens 502 rears.These internal conical surface lens 602 are column, and in the face of the end face of the taper seat of outer conical surface lens 502 is the taper seat shape that caves inward, its shaft section drift angle also is θ ', form complementary profile with the taper seat of outer conical surface lens 502.The other end of internal conical surface lens 602 is the plane, and the rotation axes of symmetry of these internal conical surface lens 602 and the optical axis of unsteady cavity are on same straight line.Light beam after 502 refractions of outer conical surface lens is injected on the taper seat that caves inward of internal conical surface lens 602, and the transmission back is through the planar end ejaculation of the other end.

Accurate displacement mechanism 7 be used to adjust internal conical surface lens 602 on the optical axis direction of unsteady cavity with the distance of outer conical surface lens 502.

Outer conical surface lens 502 are rotation symmetric form structure lens with internal conical surface lens 602, make simply, even can directly adopt ultra-precise cutting to process.

The light beam 2 of unstable cavity laser 1 output is after 502 refractions of outer conical surface lens, and emergent ray is to the optical axis position deviation of unstable cavity laser 1; Utilize 602 pairs of deviation light of internal conical surface lens to reflect once more, near the light beam that shrinks the unsteady cavity optical axis is led again, make light be parallel to the optical axis direction transmission; On optical axis direction, carry out fine adjustment through 7 pairs of said internal conical surface lens 602 of internal conical surface lens accurate displacement mechanism with the relative position of outer conical surface lens 502; Regulate outer conical surface lens 502 and the distance of internal conical surface lens 602, can realize circular solids shaping light beam output along the optical axis direction transmission along the unsteady cavity optical axis direction.

Claims (8)

1. the laser unstable resonator of an exportable solid light beam comprises:

Laser bodies (1), it comprises by what convex mirror (4) and concave mirror (3) positioned opposite constituted and just props up pseudo confocal unsteady resonator, the optical axis of the line of centres formation unsteady cavity of this convex mirror (4) and concave mirror (3);

Internal conical surface Perimeter Truss Reflector (501); It is arranged in the laser bodies (1); And be positioned between said convex mirror (4) and the concave mirror (3); The mirror surface of this internal conical surface Perimeter Truss Reflector (501) is the taper seat shape that caves inward, and the mirror body of this speculum (501) is the annular solid of hollow; With

Outer conical surface speculum (601); It is arranged on the optical axis below of unsteady cavity; And place relative with said internal conical surface Perimeter Truss Reflector (501); Wherein the mirror surface of this outer conical surface speculum (601) is the taper seat shape to outer lug, and its mirror surface central point (Q) is vertical with the optical axis of said unsteady cavity with the line of Perimeter Truss Reflector (501) minute surface central point (P);

It is characterized in that; Be transferred on the convex mirror (4) pass the hollow mirror body of speculum (501) through said concave mirror (a 3) beam reflected part after; To continue vibration; Another part incides on the mirror surface of internal conical surface Perimeter Truss Reflector (501); And reflex on the mirror surface of said outer conical surface speculum (601), through regulating said internal conical surface Perimeter Truss Reflector (501) and outer conical surface speculum (601), can realize the solid light beam of mirror surface output from said outer conical surface speculum (601) along the relative distance on two central point line (PQ) directions to suitable size.

2. the laser unstable resonator of a kind of exportable solid light beam according to claim 1; It is characterized in that; The mirror surface of said internal conical surface Perimeter Truss Reflector (501) has identical shaft section drift angle with the mirror surface of outer conical surface speculum (601), and is the obtuse angle.

3. the laser unstable resonator of a kind of exportable solid light beam according to claim 1 and 2; It is characterized in that said internal conical surface Perimeter Truss Reflector (501) all becomes 45 ° of angles with the rotation axes of symmetry of said outer conical surface speculum (601) with the optical axis of said unsteady cavity.

4. the laser unstable resonator of a kind of exportable solid light beam according to claim 1 and 2; It is characterized in that; The bottom of described internal conical surface Perimeter Truss Reflector (501) has the first annular cooling water groove; The annular water tank cover plate that has water inlet and delivery port covers on this first annular cooling water groove, and is connected with the bottom seals of said internal conical surface Perimeter Truss Reflector (501).

5. the laser unstable resonator of a kind of exportable solid light beam according to claim 1 and 2; It is characterized in that; The rear portion of described outer conical surface speculum (601) has the second annular cooling water groove; The circular channels cover plate that has water inlet and delivery port covers on this second annular cooling water groove, and is connected with the bottom seals of said outer conical surface speculum (601).

6. the laser unstable resonator of an exportable solid light beam comprises:

Laser bodies (1), it comprises by what convex mirror (4) and concave mirror (3) positioned opposite constituted and just props up pseudo confocal unsteady resonator, the optical axis of the line of centres formation unsteady cavity of this convex mirror (4) and concave mirror (3);

Outer conical surface lens (502); It is arranged on outside the laser bodies (1); And be positioned at said convex mirror (4) rear, and this outer conical surface lens (502) mirror body is column, and mirror body one end end face is the plane; Other end end face is the taper seat of outside protrusion, and the optical axis of its rotation axes of symmetry and unsteady cavity is on same straight line; With

Internal conical surface lens (602); Its coaxial outer conical surface lens (502) rear that is arranged on; These internal conical surface lens (602) are column; End face towards outer conical surface lens (502) is the taper seat shape that caves inward, and the other end is the plane, and the rotation axes of symmetry of these internal conical surface lens (602) and the optical axis of unsteady cavity are on same straight line; Light beam after said outer conical surface lens (502) refraction is injected on the taper seat that caves inward of these internal conical surface lens (602), and the planar end through the other end after the transmission penetrates;

It is characterized in that; Light beam is by the outside reflex time of concave mirror (3); A part reflexes to convex mirror (4) and goes up continuation concussion in resonant cavity; Another part is parallel to be mapped on the planar ends of outer conical surface lens (502) of convex mirror (4) back; To the optical axis direction refraction, the light beam of refraction is injected on the taper seat that caves inward of internal conical surface lens (602) through the taper seat end that is transmitted through the other end and refraction back, through regulate internal conical surface lens (602) on the optical axis direction of unsteady cavity with the distance of outer conical surface lens (502) suitable size extremely; Can make that when these internal conical surface lens (602) were transmitted through the planar end of the other end, the light beam of outgoing was solid light beam.

7. the laser unstable resonator of a kind of exportable solid light beam according to claim 6 is characterized in that, said outer conical surface lens (502) have identical critical angle c with the taper seat of said internal conical surface lens (602).

8. the laser unstable resonator of a kind of exportable solid light beam according to claim 7; It is characterized in that; The taper seat of said outer conical surface lens (502) end face and the taper seat of these internal conical surface lens (602) have identical shaft section vertex angle theta ', and 180 °-2c < θ ' < 180 °.

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