作者:维尔克斯 时间:2024-7-29 10:28:18
Vortex激光模式转换DOE元件能够将激光模式TEM00, TEM01, TEM03, TEM08,和TEM16转换为更高阶的Hermite-Gaussian光束,而且所有标准品型号都有库存,交期短。尺寸有两种,一种是11x11x2.5mm,效孔径是10mm,另外一种是22x22x2.5mm,有效孔径是20mm。
Vortex激光模式转换器的典型的光学设置,通常,激光模式转换器使用的光路结构依次为:单模激光器、激光模式转换器(相位板)、光学元件和显微镜物镜。激光模式转换DOE又可以叫做相位步进模式转换器和mode convertor。
Vortex激光模式转换DOE的典型应用
-光镊
-光学捕获
-科学研究
具有线形相阶的相板通常用作激光模式转换器,并允许将拉盖尔-高斯模态从TEM00 转换为更高的模TEM01、TEM11等。例如,这种相位步进模式转换器被应用于光学腔体和谐振器、光学镊子、原子和分子激励等领域。这些相板在表面上有一个物理台阶,其高度可以相对于π移动,这种差异导致台阶区产生破坏性干涉,并在光束轮廓中产生零强度线。
应用Vortex激光模式转换器后计算的光束轮廓
激光模式转换DOE型号
|
型号 |
尺寸 |
波长 |
TEMpl |
材料 |
镀膜/传输效率 |
|
Pi-532-10-01 |
11x11x2.5 mm |
532nm |
01 |
熔融石英 |
none / 93.14% |
|
Pi-532-10-02 |
11x11x2.5 mm |
532nm |
02 |
熔融石英 |
none / 93.14% |
|
Pi-532-10-03 |
11x11x2.5 mm |
532nm |
03 |
熔融石英 |
none / 93.14% |
|
Pi-532-10-04 |
11x11x2.5 mm |
532nm |
04 |
熔融石英 |
none / 93.14% |
|
Pi-532-10-05 |
11x11x2.5 mm |
532nm |
05 |
熔融石英 |
none / 93.14% |
|
Pi-532-10-06 |
11x11x2.5 mm |
532nm |
06 |
熔融石英 |
none / 93.14% |
|
Pi-532-10-07 |
11x11x2.5 mm |
532nm |
07 |
熔融石英 |
none / 93.14% |
|
Pi-532-10-08 |
11x11x2.5 mm |
532nm |
08 |
熔融石英 |
none / 93.14% |
|
Pi-532-10-016 |
11x11x2.5 mm |
532nm |
16 |
熔融石英 |
none / 93.14% |
|
Pi-780-10-01 |
11x11x2.5 mm |
780nm |
01 |
熔融石英 |
none / 93.33% |
|
Pi-780-10-02 |
11x11x2.5 mm |
780nm |
02 |
熔融石英 |
none / 93.33% |
|
Pi-780-10-03 |
11x11x2.5 mm |
780nm |
03 |
熔融石英 |
none / 93.33% |
|
Pi-780-10-04 |
11x11x2.5 mm |
780nm |
04 |
熔融石英 |
none / 93.33% |
|
Pi-780-10-05 |
11x11x2.5 mm |
780nm |
05 |
熔融石英 |
none / 93.33% |
|
Pi-780-10-06 |
11x11x2.5 mm |
780nm |
06 |
熔融石英 |
none / 93.33% |
|
Pi-780-10-07 |
11x11x2.5 mm |
780nm |
07 |
熔融石英 |
none / 93.33% |
|
Pi-780-10-08 |
11x11x2.5 mm |
780nm |
08 |
熔融石英 |
none / 93.33% |
|
Pi-780-10-016 |
11x11x2.5 mm |
780nm |
16 |
熔融石英 |
none / 93.33% |
|
Pi-1030-10-01 |
11x11x2.5 mm |
1030nm |
01 |
熔融石英 |
none / 93.18% |
|
Pi-1030-10-02 |
11x11x2.5 mm |
1030nm |
02 |
熔融石英 |
none / 93.18% |
|
Pi-1030-10-03 |
11x11x2.5 mm |
1030nm |
03 |
熔融石英 |
none / 93.18% |
|
Pi-1030-10-04 |
11x11x2.5 mm |
1030nm |
04 |
熔融石英 |
none / 93.18% |
|
Pi-1030-10-05 |
11x11x2.5 mm |
1030nm |
05 |
熔融石英 |
none / 93.18% |
|
Pi-1030-10-06 |
11x11x2.5 mm |
1030nm |
06 |
熔融石英 |
none / 93.18% |
|
Pi-1030-10-07 |
11x11x2.5 mm |
1030nm |
07 |
熔融石英 |
none / 93.18% |
|
Pi-1030-10-08 |
11x11x2.5 mm |
1030nm |
08 |
熔融石英 |
none / 93.18% |
|
Pi-1030-10-16 |
11x11x2.5 mm |
1030nm |
16 |
熔融石英 |
none / 93.18% |
|
Pi-400-20-01 |
22x22x2.5mm |
400nm |
01 |
熔融石英 |
none / 92.91% |
|
Pi-400-20-02 |
22x22x2.5mm |
400nm |
02 |
熔融石英 |
none / 92.91% |
|
Pi-400-20-03 |
22x22x2.5mm |
400nm |
03 |
熔融石英 |
none / 92.91% |
|
Pi-400-20-04 |
22x22x2.5mm |
400nm |
04 |
熔融石英 |
none / 92.91% |
|
Pi-400-20-05 |
22x22x2.5mm |
400nm |
05 |
熔融石英 |
none / 92.91% |
|
Pi-400-20-06 |
22x22x2.5mm |
400nm |
06 |
熔融石英 |
none / 92.91% |
|
Pi-400-20-07 |
22x22x2.5mm |
400nm |
07 |
熔融石英 |
none / 92.91% |
|
Pi-400-20-08 |
22x22x2.5mm |
400nm |
08 |
熔融石英 |
none / 92.91% |
|
Pi-400-20-16 |
22x22x2.5mm |
400nm |
16 |
熔融石英 |
none / 92.91% |
|
Pi-532-20-01 |
22x22x2.5 mm |
532nm |
01 |
熔融石英 |
none / 93.14% |
|
Pi-532-20-02 |
22x22x2.5 mm |
532nm |
02 |
熔融石英 |
none / 93.14% |
|
Pi-532-20-03 |
22x22x2.5 mm |
532nm |
03 |
熔融石英 |
none / 93.14% |
|
Pi-532-20-04 |
22x22x2.5 mm |
532nm |
04 |
熔融石英 |
none / 93.14% |
|
Pi-532-20-06 |
22x22x2.5 mm |
532nm |
06 |
熔融石英 |
none / 93.14% |
|
Pi-532-20-08 |
22x22x2.5 mm |
532nm |
08 |
熔融石英 |
none / 93.14% |
|
Pi-780-20-01 |
22x22x2.5 mm |
780nm |
01 |
熔融石英 |
none / 93.33% |
|
Pi-780-20-02 |
22x22x2.5 mm |
780nm |
02 |
熔融石英 |
none / 93.33% |
|
Pi-780-20-03 |
22x22x2.5 mm |
780nm |
03 |
熔融石英 |
none / 93.33% |
|
Pi-780-20-04 |
22x22x2.5 mm |
780nm |
04 |
熔融石英 |
none / 93.33% |
|
Pi-780-20-06 |
22x22x2.5 mm |
780nm |
06 |
熔融石英 |
none / 93.33% |
|
Pi-780-20-08 |
22x22x2.5 mm |
780nm |
08 |
熔融石英 |
none / 93.33% |
|
Pi-800-20-01 |
22x22x2.5 mm |
800nm |
01 |
熔融石英 |
none / 93.24% |
|
Pi-800-20-02 |
22x22x2.5 mm |
800nm |
02 |
熔融石英 |
none / 93.24% |
|
Pi-800-20-03 |
22x22x2.5 mm |
800nm |
03 |
熔融石英 |
none / 93.24% |
|
Pi-800-20-04 |
22x22x2.5 mm |
800nm |
04 |
熔融石英 |
none / 93.24% |
|
Pi-800-20-05 |
22x22x2.5 mm |
800nm |
05 |
熔融石英 |
none / 93.24% |
|
Pi-800-20-06 |
22x22x2.5 mm |
800nm |
06 |
熔融石英 |
none / 93.24% |
|
Pi-800-20-07 |
22x22x2.5 mm |
800nm |
07 |
熔融石英 |
none / 93.24% |
|
Pi-800-20-08 |
22x22x2.5 mm |
800nm |
08 |
熔融石英 |
none / 93.24% |
|
Pi-800-20-16 |
22x22x2.5 mm |
800nm |
16 |
熔融石英 |
none / 93.24% |
|
Pi-1030-20-01 |
22x22x2.5 mm |
1030nm |
01 |
熔融石英 |
none / 93.18% |
|
Pi-1030-20-02 |
22x22x2.5 mm |
1030nm |
02 |
熔融石英 |
none / 93.18% |
|
Pi-1030-20-03 |
22x22x2.5 mm |
1030nm |
03 |
熔融石英 |
none / 93.18% |
|
Pi-1030-20-04 |
22x22x2.5 mm |
1030nm |
04 |
熔融石英 |
none / 93.18% |
|
Pi-1030-20-06 |
22x22x2.5 mm |
1030nm |
06 |
熔融石英 |
none / 93.18% |
|
Pi-1030-20-08 |
22x22x2.5 mm |
1030nm |
08 |
熔融石英 |
none / 93.18% |
