作者:维尔克斯 时间:2023-7-3 10:01:04
如今大部分客户的需求都能用FS-UV和FS-IR来满足,为此LaserOptik提供大量的平面和曲面基板,LaserOptik基材类型总共分为9类型,并详细描述了Laseroptik基材参数。
一、Plane windows平面窗户
二、Wedged, large wedges, elliptical楔形、大楔形、椭圆形
三、Rectangular, square矩形、正方形
四、Plano-concave平凹的
五、Plano-convex平凸的
六、Zero lenses, cavity lenses零透镜、空腔透镜
七、Cylindrical lenses, prisms柱面透镜、棱镜
八、Premium and super-polished substrates优质和超抛光基板
九、Plane parallels, etalons平面平行线,标准具
平面窗形(Plane windows):
|
直径mm |
厚度 mm |
平整度 (633 nm) |
Surface imp. tol. |
UV-FS Article-No. |
IR-FS Article-No. |
|
3 |
2 |
λ/10 |
5/3x 0.025 |
S-00265 |
S-00945 |
|
6 |
2 |
λ/10 |
5/3x 0.025 |
S-00909 |
S-00402 |
|
6.35 |
4 |
λ/10 |
5/3x 0.025 |
S-00910 |
S-00946 |
|
8 |
2 |
λ/10 |
5/3x 0.025 |
S-00350 |
S-00947 |
|
10 |
0.5 |
λ/2 |
5/3x 0.040 |
S-00614 |
S-00948 |
|
10 |
1 |
λ/4 |
5/3x 0.025 |
S-00911 |
S-00949 |
|
10 |
2 |
λ/10 |
5/3x 0.025 |
S-00912 |
S-00950 |
|
10 |
5 |
λ/10 |
5/3x 0.025 |
S-00609 |
S-00951 |
|
12.7 |
2 |
λ/10 |
5/3x 0.025 |
S-00264 |
S-00952 |
|
12.7 |
3 |
λ/10 |
5/3x 0.025 |
S-00323 |
S-00401 |
|
12.7 |
5 |
λ/10 |
5/3x 0.025 |
S-00913 |
S-00953 |
|
12.7 |
6.35 |
λ/10 |
5/3x 0.025 |
S-00018 |
S-00027 |
|
15 |
6.35 |
λ/10 |
5/3x 0.025 |
S-00914 |
S-00954 |
|
19 |
3 |
λ/10 |
5/3x 0.025 |
S-00915 |
S-00955 |
|
19 |
4.5 |
λ/10 |
5/3x 0.025 |
S-00295 |
S-00956 |
|
19 |
6.35 |
λ/10 |
5/3x 0.025 |
S-00163 |
S-00957 |
|
20 |
2 |
λ/4 |
5/3x 0.025 |
S-00644 |
S-00958 |
|
20 |
5 |
λ/10 |
5/3x 0.025 |
S-00916 |
S-00959 |
|
22.4 |
5 |
λ/10 |
5/3x 0.025 |
S-00917 |
S-00960 |
|
25 |
0.5 |
λ |
5/3x 0.040 |
S-00600 |
S-00961 |
|
25 |
1 |
λ/2 |
5/3x 0.025 |
S-00617 |
S-00962 |
|
25 |
2 |
λ/4 |
5/3x 0.025 |
S-00499 |
S-00500 |
|
25 |
3 |
λ/4 |
5/3x 0.025 |
S-00028 |
S-00501 |
|
25 |
5 |
λ/10 |
5/3x 0.025 |
S-00321 |
S-00964 |
|
25 |
6.35 |
λ/10 |
5/3x 0.025 |
S-00010 |
S-00025 |
|
25.4 |
6.35 |
λ/10 |
5/3x 0.025 |
S-00035 |
S-00965 |
|
25 |
9.5 |
λ/10 |
5/3x 0.025 |
S-00409 |
S-00966 |
|
30 |
2 |
λ/4 |
5/3x 0.025 |
S-00918 |
S-00967 |
|
30 |
6 |
λ/10 |
5/3x 0.025 |
S-00919 |
S-00968 |
|
30 |
8 |
λ/10 |
5/3x 0.025 |
S-00920 |
S-00969 |
|
38 |
3 |
λ/4 |
5/3x 0.025 |
S-00502 |
S-00972 |
|
38 |
5 |
λ/4 |
5/3x 0.025 |
S-00922 |
S-00973 |
|
38 |
6.35 |
λ/10 |
5/3x 0.025 |
S-00923 |
S-00974 |
|
38 |
9.5 |
λ/10 |
5/3x 0.025 |
S-00924 |
S-00975 |
|
40 |
5 |
λ/10 |
5/3x 0.025 |
S-00925 |
S-00397 |
|
45 |
2 |
λ/2 |
5/3x 0.025 |
S-00926 |
S-00976 |
|
45 |
6.5 |
λ/10 |
5/3x 0.025 |
S-00927 |
S-00977 |
|
50 |
1 |
λ |
5/3x 0.040 |
S-00734 |
S-01115 |
|
50 |
2 |
λ/2 |
5/3x 0.040 |
S-00735 |
S-00979 |
|
50 |
3 |
λ/4 |
5/3x 0.040 |
S-00237 |
S-01116 |
|
50 |
6.35 |
λ/10 |
5/3x 0.040 |
S-00248 |
S-00980 |
|
50 |
9.5 |
λ/10 |
5/3x 0.040 |
S-00021 |
S-00981 |
|
50 |
12.5 |
λ/10 |
5/3x 0.040 |
S-00928 |
S-00982 |
|
60 |
9.5 |
λ/10 |
5/3x 0.040 |
S-00929 |
S-00983 |
|
75 |
12.5 |
λ/10 |
5/3x 0.063 |
S-00165 |
S-00984 |
|
80 |
12.5 |
λ/10 |
5/3x 0.063 |
S-00930 |
S-00985 |
二、楔形、大楔形、椭圆形(Wedged, large wedges, elliptical):
Wedged windows 30’
|
直径 mm |
厚度mm |
Wedge |
Flatnessλ (633 nm) |
Surface imp. tol. |
UV-FS Article-No. |
IR-FS Article-No. |
|
6 |
2 |
30’ |
λ/10 |
5/3 x 0.040 |
S-00987 |
|
|
12.7 |
3 |
30’ |
λ/10 |
5/3 x 0.040 |
S-00481 |
|
|
12.7 |
6.35 |
30’ |
λ/10 |
5/3 x 0.040 |
S-00015 |
S-00992 |
|
25 |
3 |
30’ |
λ/4 |
5/3 x 0.040 |
S-00012 |
|
|
25 |
6.35 |
30’ |
λ/10 |
5/3 x 0.040 |
S-00009 |
S-00254 |
|
38 |
6.35 |
30’ |
λ/10 |
5/3 x 0.040 |
S-00988 |
|
|
38 |
9.5 |
30’ |
λ/10 |
5/3 x 0.040 |
S-00989 |
|
|
50 |
6.35 |
30’ |
λ/10 |
5/3 x 0.040 |
S-00990 |
|
|
50 |
9.5 |
30’ |
λ/10 |
5/3 x 0.040 |
S-00991 |
Large wedges 1°, 2°, 3°
|
直径 mm |
厚度mm |
Wedge |
平整度(633 nm) |
Surface imp. tol. |
UV-FS Article-No. |
IR-FS Article-No. |
|
25 |
6.35 |
1° |
λ/10 |
5/3 x 0.040 |
S-00031 |
|
|
25 |
6.35 |
2° |
λ/10 |
5/3 x 0.040 |
S-00032 |
S-01722 |
|
25 |
6.35 |
3° |
λ/10 |
5/3 x 0.040 |
S-01124 |
|
|
50 |
9.5 |
1° |
λ/10 |
5/3 x 0.040 |
S-00993 |
|
|
50 |
9.5 |
2° |
λ/10 |
5/3 x 0.040 |
S-00994 |
Elliptical windows 45° cut
椭圆形窗片的LaserOptik基片可用于弯曲镜,使光束偏离90°,并具有圆形光束的最佳横截面。它的尺寸或重量能达到折叠光学系统的最小要求,还可以很容易地安装在保护管中。椭圆形窗片的两面都经过抛光,也可以用作分束器基板。
|
直径 mm |
厚度mm |
平整度 (633 nm) |
Surface imp. tol. |
UV-FS Article-No. |
|
10 |
3 |
λ/10 |
5/3 x 0.025 |
S-01049 |
|
12.7 |
5 |
λ/10 |
5/3 x 0.025 |
S-01050 |
|
15 |
3 |
λ/10 |
5/3 x 0.025 |
S-01051 |
|
25 |
3 |
λ/4 |
5/3 x 0.025 |
S-01052 |
|
30 |
3 |
λ/4 |
5/3 x 0.025 |
S-01053 |
|
38 |
5 |
λ/10 |
5/3 x 0.025 |
S-01054 |
|
50 |
5 |
λ/4 |
5/3 x 0.040 |
S-00311 |
|
75 |
8 |
λ/4 |
5/3 x 0.063 |
S-00410 |
矩形、方形(Rectangular, square)
|
长度mm |
宽度 mm |
厚度 mm |
平整度 (633 nm) |
Surface imp. tol. |
UV-FS Article-No. |
|
25 |
15 |
1.5 |
λ/4 |
5/3 x 0.040 |
S-01019 |
|
25 |
15 |
3 |
λ/4 |
5/3 x 0.040 |
S-01020 |
|
30 |
20 |
3 |
λ/4 |
5/3 x 0.040 |
S-01021 |
|
35 |
25 |
3 |
λ/4 |
5/3 x 0.040 |
S-01022 |
|
45 |
30 |
5 |
λ/10 |
5/3 x 0.040 |
S-01023 |
|
50 |
27 |
1.5 |
2λ |
5/3 x 0.040 |
S-00016 |
|
50 |
27 |
3 |
λ/4 |
5/3 x 0.040 |
S-00171 |
|
60 |
35 |
2 |
2λ |
5/3 x 0.040 |
S-00017 |
|
60 |
35 |
4 |
λ/4 |
5/3 x 0.040 |
S-00309 |
|
60 |
35 |
5 |
λ/10 |
5/3 x 0.040 |
S-00867 |
|
75 |
50 |
5 |
λ/4 |
5/3 x 0.040 |
S-00415 |
|
105 |
75 |
8 |
λ/4 |
5/3 x 0.063 |
S-01024 |
|
120 |
80 |
8 |
λ/4 |
5/3 x 0.063 |
S-00412 |
|
150 |
100 |
8 |
λ/4 |
5/3 x 0.063 |
S-01025 |
|
长度mm |
宽度mm |
厚度mm |
平整度(633 nm) |
Surface imp. tol. |
UV-FS Article-No. |
|
10 |
10 |
2 |
λ/10 |
5/3 x 0.025 |
S-00798 |
|
12.7 |
12.7 |
3 |
λ/10 |
5/3 x 0.025 |
S-00173 |
|
20 |
20 |
6 |
λ/10 |
5/3 x 0.025 |
S-01035 |
|
25.4 |
25.4 |
6.35 |
λ/10 |
5/3 x 0.025 |
S-00859 |
|
50 |
50 |
5 |
λ/4 |
5/3 x 0.040 |
S-01036 |
平凹形(Plano-concave):
|
Radius |
UV-FS Ø 12.7 x 6.35 mm Article-No. |
UV-FS Ø 25 x 6.35 mm Article-No. |
|
-10 mm |
S-00126 |
– |
|
-15 mm |
S-00127 |
– |
|
-18 mm |
S-01061 |
– |
|
-20 mm |
S-00807 |
– |
|
-25 mm |
S-00128 |
S-00069 |
|
-30 mm |
S-00513 |
S-01078 |
|
-38 mm |
S-00554 |
S-01079 |
|
-50 mm |
S-00129 |
S-00070 |
|
-75 mm |
S-00130 |
S-00207 |
|
-100 mm |
S-00131 |
S-00071 |
|
-150 mm |
S-00132 |
S-00044 |
|
-200 mm |
S-00133 |
S-00072 |
|
-250 mm |
S-00134 |
S-00073 |
|
-300 mm |
S-00135 |
S-00074 |
|
-350 mm |
S-01062 |
S-00075 |
|
-400 mm |
S-00136 |
S-00076 |
|
-500 mm |
S-00137 |
S-00077 |
|
-600 mm |
S-00864 |
S-00041 |
|
-750 mm |
S-00138 |
S-00061 |
|
-1 m |
S-00139 |
S-00062 |
|
-1.5 m |
S-00140 |
S-00063 |
|
-2 m |
S-00141 |
S-00065 |
|
-3 m |
S-00142 |
S-00064 |
|
-4 m |
S-01063 |
S-00066 |
|
-5 m |
S-00143 |
S-00067 |
|
-6 m |
S-01064 |
S-00509 |
|
-10 m |
S-00144 |
S-00068 |
|
-15 m |
S-01065 |
S-01080 |
|
-20 m |
S-00860 |
S-00745 |
平凹的LaserOptik基片基底两面都经过抛光,可用于发散透镜传输和作为聚焦镜的反射涂层。
平凸形(Plano-convex):
|
Radius |
UV-FS Ø 12.7 x 6.35 mm Article-No. |
UV-FS Ø 25 x 6.35 mm Article-No. |
|
+25 mm |
S-01142 |
– |
|
+30 mm |
S-01282 |
– |
|
+38 mm |
S-01283 |
– |
|
+50 mm |
S-01041 |
S-00791 |
|
+75 mm |
S-01284 |
S-00078 |
|
+100 mm |
S-01285 |
S-00079 |
|
+150 mm |
S-01127 |
S-01304 |
|
+200 mm |
S-01286 |
S-00080 |
|
+250 mm |
S-00551 |
S-00391 |
|
+300 mm |
S-00267 |
S-01305 |
|
+350 mm |
S-01287 |
S-01306 |
|
+500 mm |
S-00266 |
S-00081 |
|
+750 mm |
S-01288 |
S-00452 |
|
+1 m |
S-00552 |
S-00453 |
|
+1.5 m |
S-01289 |
S-00826 |
|
+2 m |
S-00553 |
S-00373 |
|
+3 m |
S-01290 |
S-00315 |
|
+4 m |
S-01291 |
S-01307 |
|
+5 m |
S-01292 |
S-01055 |
|
+10 m |
S-01293 |
S-01308 |
Laseroptik基材类型是平凸的,其基底两面都经过抛光,可用于凸面上的反射涂层作为发散镜和作为聚焦透镜传输。
零透镜(Zero lenses):
零透镜具有相同曲率半径的凸面和凹面:r=r1=–r2
透射光束具有非常长的焦距:ft≈6r2/t
使用附加的平凸透镜,透射光束和反射光束可以聚焦到与腔透镜类似的同一点。
|
Radius |
UV-FS Ø 12.7 x 6.35 mm Article-No. |
UV-FS Ø 25 x 6.35 mm Article-No. |
|
30 mm |
S-00304 |
– |
|
38 mm |
S-01083 |
– |
|
50 mm |
S-00597 |
S-01088 |
|
75 mm |
S-00598 |
S-01089 |
|
100 mm |
S-00599 |
S-01090 |
|
150 mm |
S-00337 |
S-00497 |
|
200 mm |
S-01084 |
S-01091 |
|
250 mm |
S-00263 |
S-01092 |
|
300 mm |
S-00276 |
S-00493 |
|
350 mm |
S-00262 |
S-00256 |
|
500 mm |
S-00261 |
S-00257 |
|
750 mm |
S-00260 |
S-00259 |
|
1.5 m |
S-01085 |
S-01093 |
|
2 m |
S-01086 |
S-01094 |
|
5 m |
S-01087 |
S-01095 |
空腔透镜(cavity lenses):
LaserOptik基材类型是空腔透镜,其是正弯月形透镜,设计用于共线泵浦。
后焦距(BFL)等于第二曲率半径:BFL=r2=r1*n/(n-1)-tc
空腔透镜光学设计为514nm,但可以在200-2500nm范围内使用,没有显著差异。
|
Radius r2 = BFL |
UV-FS Ø 12.7 x 6.35 mm Article-No. |
|
18 mm |
S-01333 |
|
25 mm |
S-01601 |
|
38 mm |
S-01602 |
|
50 mm |
S-01334 |
|
75 mm |
S-01603 |
|
100 mm |
S-01604 |
|
150 mm |
S-01605 |
|
200 mm |
S-01606 |
|
250 mm |
S-01607 |
|
350 mm |
S-01608 |
|
500 mm |
S-01609 |
柱面透镜(Cylindrical lenses):
LaserOptik提供各种不同表面的柱面透镜和消色差透镜,例如。
-平面/双凸,
-平面/双凹面,
-复曲面和交叉(变形)类型。
根据客户需求,LaserOptik可在所有常见的熔融石英、CaF2、MgF2和其他光学玻璃中以经济合理的批量生产。
棱镜(Prisms):
LaserOptik根据客户需求提供各种各样的棱镜和棱镜立方体,数量经济合理,不仅提供所有常见的熔融石英、CaF2、MgF2和其他光学玻璃,还可以提供介质分束器涂层、高反射系统和防反射层以及金属层。
优质和超抛光基底(Premium and super-polished substrates):
对于激光陀螺仪或具有最高精细度的谐振器等低损耗应用,需要具有最低散射的反射镜。除了使用最佳涂层技术(IBS)外,基材的选择也变得更加重要。对于指定的应用,需要具有卓越抛光质量的基材,尤其是具有最低可能的粗糙度和表面形状误差的基材。
该图显示了散射将如何随着表面粗糙度的增加而增加,这取决于所使用的波长。标准抛光表面将具有约0.5nm(RMS)的粗糙度。在532nm处,差异肉眼可见。
图片中的基材在相同的过程中涂覆,但表面粗糙度不同。右侧光学器件使用标准衬底(Rq=0.5nm),左侧光学器件使用超抛光衬底(Rq<0.1nm)。可以明显看出,超抛光基底上的散射更少。
为了确保IBS涂层尽可能低的散射,LASEROPTIK提供了两类具有最佳粗糙度的基材:优质型(Rq<0.2 nm)
和超抛光型(Rq<0.1 nm)。
平面平行线,标准具(Plane parallels, etalons):
Plane-parallels,
wedge < 10 ˝
|
直径mm |
厚度mm |
楔形平行度 |
平整度 (633 nm) |
Surface imp. tol. |
UV-FS Article-No. |
|
25 |
6.35 |
< 10 ˝ |
λ/10 |
5/3 x 0.040 |
S-01015 |
|
50 |
9.5 |
< 10 ˝ |
λ/10 |
5/3 x 0.040 |
S-01016 |
Etalons, wedge < 0.2‘’
法布里-珀罗标准具是极窄的线宽滤波器,具有一系列尖锐的透射峰,由自由光谱范围(FSR)隔开。FSR仅取决于标准具的光学厚度,而精细度(F)不仅取决于涂层的反射率,而且主要取决于表面质量、平行度、基材的均匀性和无缺陷涂层。固体标准具可以通过倾斜和温度变化来调节。
如果需要最小分辨率Δλ,反射率精细度FR可通过:FR=FSR/Δλ=π2√R/(1-R)
在大多数情况下,标准具的最终精细度受光束直径为20mm的平坦度精细度FF(λ/20的平坦度,FF=20)的限制。光束较薄时,FF可增长至>200。串联成对的标准具可用于获得超高分辨率和超长FSR。这种组合的最终精细度可能高出一个数量级。
除了较低的成本外,固体标准具与腔内使用的空气间隔标准具相比具有以下优点:
-更高的传输
-尺寸更小
-更硬的涂层
-更高的损伤阈值
