飞秒激光**丨德国Layertec品牌丨飞秒纳秒皮秒激光镜片 GT干涉镜 啁啾镜 负色散镜

关键字：啁啾镜(负色散镜)  飞秒激光全反射镜丨德国Layertec 纳秒皮秒**快激光镜片 负色散镜   纳秒皮秒激光镜片 飞秒激光光学元件 飞秒激光反射镜 **快激光镜片及组件  负色散镜 GT干涉镜 多功能宽带镜 连续激光光学元件 半导体激光光学元件红宝石激光和其它宝石激光光学元件	 F2激光光学元件

                                                            
   LAYERTEC公司于1990年成立于德国，是世界良好的光学镜片OME厂。凭借多年在光学领域中对飞秒激光镜片的研究开发以及设计生产，LAYERTEC的飞秒镜片性能品质不仅十分出众，在功能方面也多种多样。
深圳维尔克斯光电是LAYERTEC中国供应商，*应其公司的所有型号系列。光学镜片应用波长范围从VUV（157nm）到NIR（4μm）。 

   LAYERTEC主要产品包括:各种波长的纳秒、皮秒、飞秒、连续激光反射镜，以及研究应用的激光滤光片，多功能宽带镜，负色散镜，GT干涉镜等
NanosecondLaserOptics、Picosecond Laser Optics、Femtosecond Laser Optics
cw and ns Laser Optics、Low Loss Laser Optics、Multipurpose Broadband Mirrors
Metallic Mirrors、   Filters for Laser Applications、Uncoated Optics
主要优点是：高透反率、低损耗和高损伤阈值。

一、纳秒激光反射镜 Nanosecond Laser Optics

低色散镜: 

    飞秒低分散反射镜专为飞秒脉宽激光设计。飞秒低分散反射镜采用多层薄膜，专为减少波长分散而设计。此种反射镜采用等离子镀膜法制造，和通常的真空镀膜相比，其对应波长范围宽，适用于飞秒激光系统。
   飞秒激光用低分散反射镜分为两种类型。一种具有高的激光破坏阈值，称为FLM1系列；另一种具有宽的反射带域，称为FLM2系列。
    一般应于于**快激光器的腔镜，输出耦合镜，分光镜，具有大的光谱带宽和精确的色散控制。低色散意味着IGVDI99.9%)，因此可以提高反射次数来达到补偿效果，反射次数可达1020次。


Layetec提供的纳秒激光反射镜规格如下：

HR(0°,157nm)>=92%
HR(0°,193nm)>96%
HR(9°-12°,193nm)>96%
HRr(0°,260nm)>99.5%
HRr(0°,266nm)>99.5%
HR(0°,355nm)>99.9%
HR(0°,355nm)>99.85%
HRs,p(8.5°, 355nm)>99.75% + Rs,p(8.5°, 532nm)99% + Rs,p(0-20°, 1064nm)99,9% + R (0° , 1030-1064nm) 99.8% + R(0-10°, 1064nm)99.9% + R(0-10°,1064nm)99.95% + R(0°, 1064nm)99.9% + Rs,p(5-15°, 1064nm)99.9% + R(0° + 18°, 532nm)99.9% (High Power)
HR(0°,1030nm)>99.98% (High Power)
HR(0-10°,1030nm)>99.99% (High Power)
HR(0-10°,1030nm)>99.98% + R(0-10°,630-650nm)>50% (high ns-laser power)
HRr(25°-29°,157nm)>92%
HRr(30°,193nm)>96%
HRs(33°,1030nm)>99.98% (High Power ns-laser pulses)
HRr(45°,157nm)>89%
HR(45°,162nm)>90%
HRr(45°,193nm)>95%
HRs(45°,213nm)>97% + Rp(45°,266nm)99% + Rr(45°,355+848nm)99.5% + Rp(45°,532+1064nm)99.8%
HRs(45°,343nm)>99.9% + Rp(45°,515nm)99.5%
HRr(45°, 355nm + 532nm)>99.5%
TFP(45°,355nm) Rs>99.5% Rp99.8% + Rs(45°, 532nm)99.98% (High Power)
HRs(45°, 1030-1064nm)>99.9% (High Power)
HRr(45°, 1064nm)>99.9%
HRr(45°, 1064nm + 532nm)>99.8% + HRr(45°,355nm)>99.4%
HRr(45°,1064nm)>99.9% + Rr(45°,532nm)99.9%+HTr(45°, 532+808nm)>90%
HRs(22.5°,343nm)>99.8% + Rp(22.5°,515nm)<1% + Rs(22.5°,1030nm)99.5% Rp99.8% Rp<2%, (±3°)* angle adjustment
PR(0°, 650-720nm)=80±5% + R(0°, 740-950nm)<10% (analogous F0305017)
PRr(45°,193nm)=30+/-3%
PRr(45°,248nm)=50±3%
PRs,p(45°,532nm)=50±5%, |Rs-Rp|<5%
PRp(45°, 1030-1064nm)=30.0±2%
PRs(45°,1047-1064nm)=95.00±0.75%
VAr(0-45°,157nm) T=80-10%
VAr(0-45°,193nm) T=88-2%
AR(0°,193nm)<0.25%
AR(0°,248nm)<0.25%
AR(0°,355nm)<0.25%
AR(0°, 808+1064nm)<0.2%
AR(0°,940-1060nm)<0.2%
AR(0°,1010-1060nm)<0.25%
AR(0°,1030nm)<0.2%
AR(0°,1030-1064nm)99.9% (high power for ps-pulses)
HR(0°,970-1090nm)>99.9% (High Power for ps-Pulses)
HRr(0-20°,970-1090nm)>99.95% (high power)
HR(0°, 980-1090nm)>99.98% (High Power für ps-Pulse)
HR(0°,990-1070nm)>99.98% (High Power für ps-Pulse)
HR(0-10°, 1030±30nm)>99.98% (High Power ps-Pulse)
HR(0°,1000-1100nm)>99.98% (High Power für ps-Pulse)
HR(0°,1030nm)>99.98% (High Power)
HR(0°,1030±30nm)>99.98% (High Power for ps-Pulses)
HRr(0-20°,970-1090nm)>99.95% (high power for ps-pulses)
HR(0°,1030-1064nm)>99.9% (High Power)
HR(0°,1064nm)>99.98% (High Power für ps-Pulse)
HRr(22.5°,1010-1070nm)>99.9% (High Power)
Ag + Multilayer, HRr(0-45°, 1020-1040nm)>99.9%
HRr(45°,213nm)>95% (HRs(45°,208-218nm)>97%, HRp(45°,213nm)>93%) (fluoridisch)
HRs(45°,343nm)>99.9% + HRp(45°,343nm)>99.7%
HRp(45°, 355nm)>99.0% + Rs(45°, 532nm)99.9% (High Power für ps)
HRs,p(45°,515nm)>99.9% + Rs,p(45°,1030nm)99.95% + Rp(45°,1030nm)99.9% (High Power for ps)
HRr(45°,1030±40nm)>99.9% (High Power for ps-Pulses)
HRr(45°, 1030±40nm)>99.9% (High Power für ps-Pulse), T>0.05% with HRr~99.95% => |Rs-Rp|~0.1%
HRr(45°,990-1070nm)>99.98% (High Power für ps-Pulse)
HRr(45°,1030±40nm)>99.9% + PRr(633-655nm)>80% (High Power für ps-Pulse)
HRr(45°, 1030nm)>99.9% (High Power für ps-Pulse), T>0.05%
HRr(45°, 1030nm)>99.98% (High Power for ps-pulses)
HRr(45°, 1030nm + 515nm)>99.9% (high power)
TFP(45°, 1030nm) Rs>99.9% Rp99.9%, Rp99.8%, GVD-oscillation(700-1000nm)~-100...0fs2
HR(0°, 580-1030±8nm)>99.9%, GVD(650-1000nm)~ -50fs2±20fs2 , (GVD-oszillation compensated)
HR(0°, 580-1060±8nm)>99.8%, GDD - oscillation~-120...+40fs2
HR(0°, 600-700nm±6nm)>99.9%, GVD99.8%, GVD (600-900nm)~ -45fs2±20fs2, (GVD-Oscillation compensated, see data sheet)
HR(0°, 600-930nm)>99.9%, GVD(700-950nm)~ -65±20fs2 (GVD-Oszillation compensated)
HR(0°, 600-980nm)>99.9%, GVD(700-880nm)~-100fs2...+40fs2
HR(0°, 610-1030nm±10nm)>99.8%
HR(0°, 620-720nm±5nm)>99.9%
HR(0°, 620-900±8nm)>99.9%, GVD(700-900nm)~ -65±20fs2(GVD oscillation compensated)
HR(0-12°, 620-1000±7nm)>99.8%, GVD(680-900nm)~-60±20fs2
HR(0°, 620-1000nm)>99.85%, GDD(0°, 700-1000nm)~ -50±20fs2, GDD - osz. compensated
HR(0°, 620-1050nm)>=99.9% + R(0°, 490-540nm)99.9% + R(0°,488-532nm)99.9%, GD optimized
HR(0°, 630-980nm)>99.7% + R(0°, 515-545nm)99.8% + R(0°, 480-540nm)99.85%, GVD~-200fs2....100fs2
HR(0°, 630-1200nm)>99.8%, |GDD-R(0°, 650-1150nm)|99.8% + R(0°,(510-545)±5nm)99.8% + R(0°, 510-550nm)99.9% + R(0°, 490-540+/-5nm)99.9%, GVD(770-795nm)~-550±75fs2
HR(0°, 650-900±5nm)>99.9%, GVD(700-900nm)~ -100±30fs2 , (GVD-oszillation compensated)
HR(0°, 650-900±8nm)>99.9%, GVD~-150fs2....0fs2, with smoothed GD
HR(0°, 650-1100nm)>99.8%, GD optimized
HR(0°, 650-1070±8nm)>99.9%, GVD(740-980nm)=-70±30fs2
HR(0°,650-1100nm)>99.8% + R(0°,488-532nm)99.7% + R(0°,500-550nm)99.9%, High Power optimized (780-850nm)
booth mirrors HR(0°, 660-1060nm)>99.8%, GDD(730-970nm)= -70±20fs2, (GDD-Oszillation compensated)
HR(0°, 660-1100±9nm)>99.8%, GVD(740-1010nm)=-70±20fs2
HR(0°,660-1130nm±10nm)>99.9%, GVD(780-1010nm)~ -120fs2...+40fs2
HR(0°, 660-1130+/-8nm)>99.9% + R(0°, 510-550+/-5nm)99.9% + R(0°,480-560nm)99.8%, GVD(700-970nm)=-60±20fs2
HR(0-5°, 670-1020nm)>99.8%, GDD Osz. compens. (0-5°, 730-850nm) ~-500...+750±100fs2, TOD opt.
HR(0-5°, 670-1040nm)>99.8%, GDD Osz. compens. (0-5°, 770-990nm) ~-120±30fs2
HR(0°, 680-890±7nm)>99.8%, GVD (0°, 720-880nm)~+100±30fs2
HR(0°, 680-890±7nm)>99.8%, GVD (0°, 720-880nm)~+80±30fs2
HR(0°,680-1100nm)>99.8%, not GVD optimized
HR(0°,680-1100nm)>99.8% + HT(0°,488-532nm)>90%
HR(0°,690-820nm)>99.9% + R(0°,488-532nm)99.9%, |GDD|99.9%, GDD=-40±15fs2(725-880nm)
HR(0°, 700-880±8nm)>99.9% + R(0°, 450-550nm)99.8%, GDD99.9%, GVD(700-900)~ -50±20fs2 (GVD-oscillation compensated)
HR(0°, 700-900nm)>99.9%, GVD(780-805nm)~-550±50fs2
HR(0°,700-900nm)>99.9%, GVD99.8% + R(0°,532nm)99.9% + R(0°, 505-535nm)99.85%, GDD(700-950nm)~ -60....-30fs2 (GDD - oscillation compensated and TOD optimized)
HR(0°,700-980nm)>99.9% + R(0°,510-532nm)99.8%, GVD(730-1000nm)=-60±20fs2
HR(0°, 705-920±8nm)>99.9%, GVD~-40±15fs2
HR(0°, 710-850±8nm)>99.9% + R(0°,350-400±5nm)99.9% + R(0°,480-570nm)99.9%, GVD~-40±10fs2
HR(0°,720-880nm)>99.99%, GDD(0°,720-880nm)~ -10±10fs2
HR(0°,720-880±8nm)>99.9% + R(0°,514-532nm)99.9%, GVD(790-815nm)~ -550±50fs2
HR(0°,720-920nm)>99.8% + R(0°,532nm)99.9% + R(0°,520-560nm)99.9%, GD~0-100fs
HR(0°,725-930±5nm)>99.9%, GVD (735-910nm)99.9% + R(0°,500-550nm)99.8%, GDD=115±35fs2
HR(0°,730-880±10nm)>99.9%, GVD99.9%, GVD99.8% + R(0°,532nm)99.8% + R(0°, 650-690nm)99.9%, |GDD-R(0°, 740-840nm)|99.75% + GDD(0°,750-830nm)~450(±150)fs2
HR(0°,740-860nm)>99.9%, GDD99.9%, GVD99.8%, GDD(0°,750-910nm)~ -45±10fs2
HR(0°,740-950±5nm)>99.9%, GDD (760-930nm)99.9% + R(0°,532nm)99.9% + R(0°, 532nm)99.9% + R(0°,670nm)99.9%, |GDD|99.9%, |GDD|99.9% + R(0°, 360-480nm)99.9%, /GDD/~ -45±10fs2
HR(0°,750-920nm)>99.9% + R(0°,520-580nm)99.9% + R(0°,380-430nm)99.9%, GDDp(0-10°, 770-830nm)~-150±30fs2
HR(0°,770-940+/-8nm)>99.9% + R(0°,490-550nm)<5%, GVD(0°,770-940nm)99.9%, GDD99.9% + R(0°, 390-420±4nm)<3%, GVD99.9%, GVD99.9% + R(0°,532nm)99.9%, GVD99.9% + R(0°,685nm)99.9%, GVD99.9% + R(0°,410-470nm)99.9%
HR(0-10°, 900-1000nm)>99.95% + R(0-10°, 450-500nm)99.8%, GVD(1040-1090nm)~-550±100fs2
HR(0-3°, 900-1100±10nm)>99.9%, GVD(1028±10nm)~-550+50/-75 fs2