Layertec超快激光反射镜
德国LAYERTEC公司创建于1990年. 凭借多年在光学镜片的设计开发和生产经验,已成为全球知名的光学镜片厂商,LAYERTEC的镜片品质非常出众,广泛赢得客户的赞誉。光学镜片应用波长范围从157-2940nm,包括了科研以及工业上主流的激光器的应用,材质有YAG,Sapphire,CaF2,IR-fused silica,Fused Silica,BK7,尺寸大部份为0.5英寸-2英寸。
超短激光脉冲包含大量不同波长的同步单个波。当脉冲激光束通过光学系统时,单个波的波长依赖性延迟(色散)会导致传播时间的差异。结果,激光脉冲变宽,脉冲能量减小。对于这种激光系统,需要光学器件来抵消传播时间(GDD)的这些差异。
德国LAYERTEC公司创建于1990年. 凭借多年在光学镜片的设计开发和生产经验,已成为全球知名的光学镜片厂商,LAYERTEC的镜片品质非常出众,广泛赢得客户的赞誉。光学镜片应用波长范围从157-2940nm,包括了科研以及工业上主流的激光器的应用,材质有YAG,Sapphire,CaF2,IR-fused silica,Fused Silica,BK7,尺寸大部份为0.5英寸-2英寸。
LAYERTEC主要产品包括:
各种飞秒激光器以及研究应用的宽带镜,啁啾镜(负色散镜),GT干涉镜等。
低色散镜:一般应于于超快激光器的腔镜,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IGVDI<20fs,标准带宽是200nm左右(中心波长在800nm左右),更宽的可以达到300nm。另外,金属镀膜镜也具有宽带宽低色散的特性。
高功率飞秒光学元件:高激光损伤阀值,对于150fs脉冲激光来说,损伤阈值可以超过0.75J/cm2。
负色散镜:LAYTERTEC的负色散镜具有非常高的反射率(R=99.8% >99.9%),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。
Gires-Tournios干涉镜:GT干涉镜可以提供对大的负色散和相对小的反射带宽。
当超短激光脉冲通过光学系统时,其形状会发生变化。由于与波长相关的色散,每个单独的波都会在不同的程度上延迟,并且传播时间会有所不同。结果,激光脉冲变宽,脉冲能量减小。为了中和这种影响,使用了啁啾镜。
LAYERTEC可根据客户要求生产特殊的介电系统(反射镜、泵浦反射镜、短通或长通滤波器、去耦器等),对波长范围为200 – 5000 nm的相位响应(即负或正GDD)产生适当的影响。
具有带宽的相位校正反射系统,简单的布拉格镜(经典 Lambda/4 反射镜)或更大的频率称为啁啾镜。另一方面,用于仅在几nm带宽上具有(高)负GDD的ps激光器的相位校正镜称为GTI反射镜。
纳秒激光反射镜
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)<0.5% + Rs,p(8.5°, 1064nm)<5% (high power)
HRs,p(0-20°, 355nm)>99% + HRs,p(0-20°, 532nm)>99% + Rs,p(0-20°, 1064nm)<1%
HR (0°, 515-532nm) >99,9% + R (0° , 1030-1064nm) <1%
HR(0-10°, 532nm)>99.8% + R(0-10°, 1064nm)<1% (High Power)
HR(0-10°,532nm)>99.9% + R(0-10°,1064nm)<0.5% (high power)
HR(0°, 532nm)>99.95% + R(0°, 1064nm)<0.25%, T(0°, 532nm)~0.015%
HRs,p(5-15°, 532nm)>99.9% + Rs,p(5-15°, 1064nm)<1% (high power)
HR(0° + 18°, 655-755nm)>99.9% + R(0° + 18°, 532nm)<2%, |GDD-R(0° + 18°, 655-755nm)|<40fs2
HR(0°,1010-1060nm)>99.9%
HR(0°, 1020-1070nm)>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)<2% + Rs(45°,532nm)<10% + Rp(45°,1064nm)<2%
HRr(45°, 248nm)>98% (fluoridic)
HRr(45°,248nm)>99%
HRr(45°,248nm)>99% + Rr(45°,355+848nm)<10%
HRs(45°,266nm)>99.5% + Rp(45°,532+1064nm)<2% + Rs(45°,532+1064nm)<10%
HRr(45°, 308nm)>99.5%
HRr(45°, 308nm)>99.8%
HRs(45°,343nm)>99.9% + Rp(45°,515nm)<0.2% + Rs(45°,1030nm)<0.2%
HRr(45°,351nm)>99.5%
HRr(45°, 355nm)>99.5%
HRr(45°, 355nm + 532nm)>99.5%
TFP(45°,355nm) Rs>99.5% Rp<2%
HRp(45°, 355nm)>99.8% + Rs(45°, 532nm)<1% + Rp(45°, 1064nm)<1%
HRs,p(45°, 532nm)>99.8% + Rs,p(45°, 1064nm)<2% (high power)
HRs,p(45°,1030nm)>99.96% (Zero Phase Shift)
HRr(45°,1030nm)>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)<10%
HRr(45°,1064nm)>99.9%+HTr(45°, 532+808nm)>90%
HRs(22.5°,343nm)>99.8% + Rp(22.5°,515nm)<1% + Rs(22.5°,1030nm)<1%
TFP(56°, 355nm) Rs>99.5% Rp<2%
TFP(56°(±3°)*, 532nm) Rs>99.8% 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)<0.15%
AR(0°,1030-1080nm)<0.25%
ARr(45°,266nm)<0.6%
皮秒激光反射镜
HR(0°,343nm)>99.7% + R(0°,515+1030nm)<1% (ps-pulses)
HR(0°, 515nm)>99.9% (high power)
HR(0°,532nm)>99.9% (High Power)
HR(0°,750-850nm)>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)<3% + Rp(45°, 1064nm)<2%
HRp(45°, 355nm)>99.5% + Rs(45°, 532nm)<5% + Rp(45°, 1064nm)<5%
HRr(45°, 515nm)>99.9% (High Power for ps-pulses), T>0.05%
HRs,p(45°,515nm)>99.9% (High Power für ps)
HRs,p(45°,515nm)>99.9% + Rs,p(45°,1030nm)<2%
HRs(45°,515nm)>99.95% + Rp(45°,1030nm)<1% (high power)
HRr(45°,532nm)>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% Rp<2%
TFP(55°, 1030nm), Rs>99.9%, Rp<1%
PR(0°,1030nm)=75±2%
PR(0°,1030nm)=77±2%
PR(0°,1030nm)=79±2%
PR(0°,1030nm)=81±2%
PR(0°,1030nm)=83±2%
PR(0°,1030nm)=85±2%
PR(0°,1030nm)=87±2%
飞秒激光反射镜
HR(0°,158.5nm)>92% + R(0°,266+800nm)<10%
HR(0°,200nm)>96% (fluoridic)
HR(0°, 220nm)~85% + R(0°, 350-800nm)<10%, band width ~35nm with R~80…90%, |GDD-R(0°, 220)| <20fs2,
HR(0°, 240-330±3nm)>95% + R(0°, 600-920nm)<5%, GDD opt.
HR(0°, 250-400±5nm)>95.0%, GDD( 0°, 265-385nm)~ -10±10fs2, (GDD-oszillation compensated)
HR(0°,267nm)>99% + HR(0°,400nm)>99.3% + HR(0°,800nm)>99.7%, GDD-optimiert
HR(0°,267nm)>99.5% + R(0°,400+800nm)<5%, GVD<20fs2
HR(0°, 315-450±5nm)>99.8%, GDD(330-440nm)~ -25±10fs2, (GDD-oszillation compensated)
HR(0°, 310-460±5nm)>99.8%, GVD(350-470nm)~-30….+20fs2, (GVD-Oscillation compensated)
HR(0°, 310-480nm)>99.7%, GDD(340-490nm)~ -25±50fs2
HR(0°,340-390nm)>99.8%
HR(0°,340-450nm)>99.8%, GVD(350-450nm±10nm)~ -25±20fs2
HR(0°,340-460nm)>99.8%,|GDD(R,0°,340-460nm)|<40fs2
HR(0°, 340-540nm)>99.0% + HR(0°, 665-1070nm)>99.7%, GD opt.
HR(0°, 360-410nm)>99.9%, GVD<20fs2
HR(0°,360-435nm±5nm)>99.9% + R(0°,700-950nm)<2%, GVD<20fs2
1.Mirror:HR(0-8°,360-480nm)>99.5%, 2.Mirror:+10nm, GVD(360-480nm)~-15±15fs2, (GVD-Oscillation compensated)
HR(0°,370-425nm)>99.8%, |GDD|<20fs2
HR(0°, 370-430nm)>99.8%, |GVD|<20fs2
HR(0°, 370-430±5nm)>99.8% + R(0°, 500-1000nm)<2%, |GDD|<20fs2
HR(0°,370-430nm±5nm)>99.9% + R(0°,690-880nm)<2%, |GDD|<20fs2
HR(0°,380-420nm)>99.8%, |GDD|<20fs2
HR(0°,380-440nm±5nm)>99.9% + R(0°,700-900nm)<2%, GVD<20fs2
HR(0°,390-440nm)>99.9%, GVD<20fs2
HR(0°, 390-440+/-4nm)>99.96%, T~0.005…0.03%, Low Loss
HR(0°, 400+800nm)>99.8%
HR(0°, 409nm)>99.98%, T~0.002%, Low Loss
HR(0°,410-470nm)>99.9%, GDD<20fs2
HR(0°, 420-810±6nm)>99.7..99.8%, GVD(470-810nm)~ -40fs2±20fs2 , (GVD-Oszillation compensated)
HR(0°, 440-660nm)>99.85%, GDD-R(0°, 480-660nm)~ -30….-15fs2 (GDD – oscillation compensated and TOD optimized)
HR(0°, 440-720nm)>99.85%, |GDD-R(0°, 440-720nm)|<150fs2
HR(0°, 480-640nm)>99.85%, GDD-R(0°, 480-630nm)~ -70….-40±30fs2 (GDD – oscillation compensated and TOD optimized)
HR(0-15°, 480-960nm)>99.6..99.8%, GVD(510-920nm)~ -40fs2±20fs2 , (GVD-Oszillation kompensiert)
PR(0°,490-750nm)=86±2%, GDD optimised
HR(0-10°,500-650nm)>99.9%
1.mirror:HR(0°,500-950±10nm)>99.6%, 2.mirror:-20nm, GDD(500-930nm)~ -40±20fs2, (GDD-oscillation compensated)
HR(0°, 510-520nm)>99.9% + PR(0°, 1020-1040nm)=70(±3)%, |GDD-R(0°, 510-520nm + 1020-1040nm)|<100fs2
HR(0°, 510-520nm)>99.9% + PR(0°, 1020-1040nm)=80(±3)%, |GDD-R(0°, 510-520nm + 1020-1040nm)|<100fs2
HR(0°, 510-520nm)>99.9% + PR(0°, 1020-1040nm)=90(±2)%, |GDD-R(0°, 510-520nm + 1020-1040nm)|<100fs2
HR(0°, 510-520nm)>99.9% + PR(0°, 1020-1040nm)=95(±1)%, |GDD-R(0°, 510-520nm + 1020-1040nm)|<100fs2
HR(0°,515+1030nm)>99.8% + R(0°,808nm)<5%
HR(0°, 532nm)>99.9%
HR(0°, 540-1040±8nm)>99.7%, GVD(570-1040nm)~ -40±20fs2, (GVD-oszillation compensated)
HR(7°, 500-1000nm)>99.4%, GDD(R,7°,500 -1000nm) designed to compensate 1,5mm FS per double bounce
HR(0°, 560-1000nm)>99.9%, GVD(620-980nm)~-40fs2±15fs2 , (GVD-oszillation compensated)
HR(0°, 570-820nm)>99.85%, GDD-R(0°, 570-820nm)~ -35….-15fs2 (GDD – oscillation compensated and TOD optimized)
HR(0°, 570-840±5nm)>99.8%, GD optimized
HR(0°, 570-1020nm)>99.7%, GDD osc. comp. (0°, 680-980nm)-80fs2…+50fs2, TODopt.
HR(0°, 570-1030±8nm)>99.8%, GVD(0°, 600-1020nm)~ -50fs2±20fs2 , (GVD-Oszillation kompensiert)
1.Mirror:HR(0°, 580-980±10nm)>=99.9%, 2.Mirror:+20nm, GVD(650-1000nm)~ -50±20fs2, (GVD-Oscillation compensated)
HR(0°, 580-1020±10nm)>99.8%, 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%, GVD<20fs2
both mirrors: HR(0°, 600-900nm)>99.8%, 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)<5%, GDD(680-1020nm)~ -50+/-20fs2, (GDD-oszillation compensated)
HR(0°,620-1080nm)>99.9% + R(0°,488-532nm)<5%
HR(0°, 620-1120±10nm)>99.9%, GD optimized
HR(0°, 630-980nm)>99.7% + R(0°, 515-545nm)<10%, GDD(700-1020nm)~ -70+/-30fs2, (GDD-oszillation compensated)
HR(0°, 630-1100±8nm)>99.8% + R(0°, 480-540nm)<10%
HR(0°, 630-1140+/-10nm)>99.85%, GVD~-200fs2….100fs2
HR(0°, 630-1200nm)>99.8%, |GDD-R(0°, 650-1150nm)|<400fs2
HR(0°,640-1000nm)>99.8% + R(0°,(510-545)±5nm)<15%, GDD(720-1000nm)~ -70±30fs2, (GDD-oscillation compensated)
HR(0°, 630-1000nm)>99.8% + R(0°, 510-550nm)<10%, GVD(720-1020nm)~ -70±30fs2
HR(0°, 640-1080+/-8nm)>99.9% + R(0°, 490-540+/-5nm)<5%, GVD~ -200…+100fs2 (GVD optimized for OPO-application)
HR(0°, 650-860±7nm)>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)<5%
HR(0°,660-980nm±10nm)>99.7% + R(0°,500-550nm)<5%, GVD~-50±20fs2(730-1000±10nm)
HR(0°, 660-1050nm)>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)<5%, GVD~ -200…0fs2 (GVD optimized for OPO-application)
HR(0°,660-1150nm)>99.9% + R(0°,480-560nm)<5%
HR(0°,670-1000nm)>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)<5%, GVD<20fs2
HR(0°,690-880nm±10nm )>99.9% + R(0°,500-550nm)<2%, GVD<20fs2 (710-870±10nm)
HR(0°, 690-890±5nm)>99.9% + R(0°, 532nm)<2%, GDD(0°, 700-880±10nm)~0fs2
HR(0°,690-960nm±10nm)>99.9% + R(0°,500-540nm)<5%, GDD~0fs2(690-880±10nm)
HR(0°,700-840nm)>99.95%, GVD<20fs2
HR(0°, 700-850nm)>99.8% + HT(0°, 514-532nm)>95%, GVD~0fs2
HR(0°,700-870±7nm)>99.9%, |GDD|<40fs2
HR(0°, 700-870±8nm)>99.9%, GDD=-40±15fs2(725-880nm)
HR(0°, 700-880±8nm)>99.9% + R(0°, 450-550nm)<2%, GVD<20fs2 (710-870±8nm)
HRr(0-45°,700-890±10nm)>99.9% (not GVD-optimized)
HR(0°,700-900nm)>99.8%, GDD<40fs2
HR(0°,700-900nm)>99.9%, 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%, GVD<40fs2
HR(0°,700-900nm)>99.8% + R(0°,532nm)<2%, GDD~0fs2
HR(0°, 700-950±5nm)>99.9% + R(0°, 505-535nm)<10%, GVD~ -50±20fs2(680-940±5nm)
HR(0°, 700-970nm)>99.85%, GDD(700-950nm)~ -60….-30fs2 (GDD – oscillation compensated and TOD optimized)
HR(0°,700-980nm)>99.9% + R(0°,510-532nm)<10%, IGDD(R,0°,710-870nm)I<30fs2
HR(0°,700-1000nm)>99.9%, GDD-R(0°,700-1000nm)=-50±50fs2
HR(0°,700-1030nm)>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)<3%
HR(0°,710-860nm)>99.9% + R(0°,480-570nm)<2%, GVD<20fs2
HR(0°, 710-880±5nm)>99.9%, GDD<20fs2
HR(0°, 710-890±8nm)>99.9% + R(0°,480-550±5nm)<3%, GVD<20fs2
HR(0°, 710-900±8nm)>99.9% + R(0°, 510-550nm)<5%, GVD=-40±10fs2
HR(0°, 710-940±8nm)>99.9%, GVD(0-12°, 740-870nm)~-350fs2….+350fs2, increasing arithmetically
HR(0°, 710-950±8nm)>99.9% + R(0°, 500-550nm)<2%, GVD(0-12°, 700-1000nm)~0…-300fs2
HR(0°, 715-820nm)>99.9%, GDD<20fs2
HR(0°,720-870nm)>99.9%, |GVD|<20fs2
HR(0°, 720-880nm)>99.9%, GVD(0°, 760-840nm)~+150fs2….-100fs2 (linear decreasing)
HR(0-12°, 720-880±8nm)>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)<5%, GVD=-40±10fs2
HR(0°, 720-920nm)>99.9%, GVD(790-815nm)~ -550±50fs2
HR(0°,720-920nm)>99.8% + R(0°,532nm)<5%, GDD~0fs2 (730-900nm)
HR(0°,720-940±5nm)>99.9% + R(0°,520-560nm)<5%, GVD=-40±10fs2
HR(0°,720-1210+/-10nm)>99.9%, GD~0-100fs
HR(0°,725-930±5nm)>99.9%, GVD (735-910nm)<20fs2
HR(0°,730-860±8nm)>99.9% + R(0°,500-550nm)<3%, GVD<20fs2
HR(0°, 730-870nm)>99.8%, GVD(0°, 630-890nm)~-40fs2±15fs2 , (GVD-oszillation compensated)
HR(6°, 730-870nm)>99.8%, GDD=115±35fs2
HR(0°,730-880±10nm)>99.9%, GVD<20fs2
HR(0°,730-890±7nm)>99.9%, GVD<20fs2
HR(0°,730-900nm±10nm)>99.8% + R(0°,532nm)<5%, GVD~-50±10fs2(750-920nm)
HR(0°, 730-1030±5nm)>99.8% + R(0°, 650-690nm)<5%, GVD~-50±40fs2( 750-920nm)
HR(0°, 740-840nm)>99.9%, |GDD-R(0°, 740-840nm)|<20fs2
HR(0°,740-840nm)>99.75% + GDD(0°,750-830nm)~450(±150)fs2
HR(0°,740-860nm)>99.9%, GDD<50fs2
HR(0°,740-860nm)>99.9%, GVD<20fs2
HR(0°,740-910nm)>99.8%, GDD(0°,750-910nm)~ -45±10fs2
HR(0°,740-950±5nm)>99.9%, GDD (760-930nm)<20fs2
HR(0°,750-850nm)>99.9% + R(0°,532nm)<1%
HR(0°, 750-850nm)>99.9% + R(0°, 532nm)<3%, GDD-R(0°, 750-840±5nm)=-120±40fs2
HR(0°,750-850nm)>99.9% + R(0°,670nm)<5%
HR(0°,750-850nm)>99.9%, |GDD|<20fs2
HRs,p(0-20°,750-850nm)>99.9%, |GDD|<20fs2
HR(0°, 750-870±8nm)>99.9% + R(0°, 360-480nm)<5%
HR(0°, 750-900nm)>99.9%, /GDD/~ -45±10fs2
HR(0°,750-920nm)>99.9% + R(0°,520-580nm)<2%, GVD<20fs2
HR(0°,750-920nm)>99.9%, GDD<20fs2
HR(0°,750-930nm)>99.9%, GVD<20fs2
HR(0°,750-1250nm)>99.9%
HR(0°,760-860nm)>99.9% + R(0°,380-430nm)<5%, GVD<20fs2
HR(0°, 760-930±8nm)>99.95%, GVD~-20±10fs2(0°, 740-860nm)
HRp(0-10°, 770-830nm)>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)<20fs2
HR(0°,770-970nm)>99.9%, GDD<40fs2
HR(0°,780-900±8nm)>99.9% + R(0°, 390-420±4nm)<3%, GVD<20fs2
HR(0°,780-940nm)>99.9%, GVD<20fs2
HR(0°,800-880nm)>99.9% + R(0°,532nm)<2%, GVD<20fs2
HR(0°,800-900nm)>99.9% (High Power)
HR(0°,800-900nm)>99.9%, GVD<20fs2
HR(0°,800-900nm)>99.9% + R(0°,685nm)<2%, GVD<20fs2 (High Power)
HR(0°,820nm)>99.9%
HR(0°, 830-950±8nm)>99.9%, GVD<20fs2
HR(0°,840-920nm)>99.9% + R(0°,410-470nm)<10%, |GDD-R(0°, 840-920nm)|<20fs2
HR(0°,840-920nm)>99.9% + R(0°,410-470nm)<5%, GVD<20fs2
HR(0°, 840-1050nm)>99.9%, GVD(890-980nm)~-65±15fs2
HR(0°, 870-1180±10nm)>99.9%, GVD(0-10°, 1064nm)~ -1000±100fs2
HR(0°,900-1000nm)>99.9%
HR(0-10°, 900-1000nm)>99.95% + R(0-10°, 450-500nm)<5%
HR(0-10°, 900-1100±10nm)>99.8%, GVD(1040-1090nm)~-550±100fs2
HR(0-3°, 900-1100±10nm)>99.9%, GVD(1028±10nm)~-550+50/-75 fs2
HR(0°,900-1100±10nm)>99.9%, GDD<20fs2
HR(0-12°, 900-1120nm±10nm)>99.9%, GVD(0-12°, 1030-1040±5nm)~ -450±50fs2
HR(0°, 920-1140±10nm)>99.9%, GVD(990-1050nm)~ -250±50fs2
HR(0°, 930-1130nm±10nm)>99.9%, GVD(1020-1070±5nm)~ -375±50fs2
HR(0°, 930-1140±9nm)>99.9% with Rmin~99.7% at 1033±5nm (see data sheet), GVD (990-1110±5nm) ~ -100fs2±20fs2
HR(0°, 940-1090±10nm)>99.9%, GVD(1000-1065±5nm)~-100fs2±20fs2
HR(0°,940-1100nm)>99.9%, GDD<20fs2
HR(0-10°,940-1100nm)>99.9%, GVD(1020nm)~ -320±50fs2, GVD(1060nm)~ -250±50fs2
HR(0-10°, 940-1110nm±10nm)>99.9%, GVD(0-10°,1010-1080nm)~ -250±50fs2
HR(0-10°, 940-1110nm±10nm)>99.9%, GVD(0-10°,1020-1030nm)~-1300±150fs2
HR(0°, 940-1180±5nm)>99.9%, GVD(990-1120nm)~ -55±10fs2
HRp(0-10°, 940-1140±10nm)>99.9%, GVDp(0-10°,1035±10nm)~+1000±200fs2
HR(0°, 940-1140±10nm)>99.9%, GVD(980-1130±5nm)~ -100fs2±20fs2
HR(0°,940-1150nm)>99.9%, GVD(0°,930-1150nm)~ -55±15fs2
HR(0-10°,950-1120±10nm)>99.9%, GVD(0-10°,1030nm)~ -550±50fs2
HR(0-15°,950-1120±10nm)>99.9, GVD(0-10°,1040nm)~ -550±50fs2
HR(0°,950-1130±10nm)>99.8±0.5%, GVD(0°,1030nm)~ -1200±50fs2
HR(0-10°, 950-1150±10nm)>99.9%, GVD(0-10°, 1030-1040nm)~ -550±50 fs2
HR(0-15°, 950-1140±10nm)>99.9%, GDD(1030-1040nm)~ -550±50 fs2
HR(0-10°, 950-1170nm±10nm)>99.9%, GVD(0°, 1000-1080nm)~ -250±75fs2
HR(0-12°, 950-1200nm±10nm)>99.9%, GVD(0-12°, 1030nm)~ -250±50fs2
HR(0°,1040nm)~99.85…99.9%, GVD(0°,1020-1035nm)~-1300±150fs2
HR(0°,1040nm)~99.85…99.9%, GVD(0°,1025-1045nm)~ -1300±150fs2
HR(0°,1040nm)~99.85…99.9%, GVD(0°,1035-1050nm)~-1300±150fs2
HR(0°, 960-1140±10nm)>99.9%, GVD(0°, 1030nm)~-1300±200fs2
HR(0°, 960-1200nm±10nm)>99.9%, GVD(1020-1080±5nm)~ -200±50fs2
HR(0-10°, 960-1220nm±10nm)>99.9%, GVD(0-10°, 1020 – 1080nm)~ -250±75fs2
HR(0-3°, 970-1100±10nm)>99.95%, GVD(1030nm)~-800±75fs2, GVD(1060nm)~0fs2, for TOD-management
HR(0°, 970-1120nm)>99.9%, GDD(0-10°,1040nm)~ -1300±150fs2
HR(0-10°, 970-1170±10nm)>99.9%, GVD(0-10°,1005-1025nm)~-950±125fs2
HR(0-14°, 970-1170±10nm)>99.9%, GVD (0-14°, 1045nm) ~ -1200±100fs2
HR(0-10°,970-1200±7nm)>99.9%, GVD(0-10°,1064nm)~-650±100fs2
HR(0-10°, 970-1250nm±10nm)>99.9%, GVD(0-10°,1025-1100nm)~-250±50fs2
HR(0-12°, 976nm)>99.9% + R(0-12°, 488nm)<5%
HR(0-10°, 980-1110nm±10nm)>99.85%, GDD(0-10°, 1030nm)~ -900±100fs2
HR(0-10°,980-1120nm)>99.9%, GDD(0-10°,1020-1080nm)~ -300±50fs2
HR(5°, 980-1130nm)>99.7%, GVD(1035nm)~+1800±100fs2
HR(0°,980-1150±10nm)>99.9%, GVD(0°,1040-1070nm)~ -500±50fs2
HR(0-10°,980-1150±10nm)>99.8%, GVD(0°/10°,1042nm/1036nm)~ -550±50fs2
HR(0-10°, 980-1170nm)>99.8%, GVD(1010nm)~-600±50fs2, GVD(1080nm)~-350±50fs2
HR(0°, 980-1460±10nm)>99.8%, GVD(1000-1500nm)~ -120±40fs2 , (GVD-Oszillation compensated)
HR(0-5°, 990-1060±10nm)>99.6%, GVD(0-5°, 990-1060nm)~-600….-350fs2
HR(0-10°, 990-1130nm)>99.9%, GDD(0-10°,1030nm)~ -900±100fs2
HR(0-10°, 990-1180nm)>99.9%, GVD(1045±10nm)~ -800±100fs2
HR(0-10°, 990-1250nm±10nm)>99.9%, GVD(0°,1030-1090nm)~-250±50fs2
HR(0-10°,1000-1130±8nm)>99.9%, GVD(0-10°,1030nm)~ -1000±100fs2
HR(0-12°, 1000-1160±9nm)>99.9%, GVD(0-12°,1064nm)~ -1000+100-200fs2
HR(0-10°,1000-1230nm)>99.9%, GVD(0°,1100-1140nm)~-500fs2±50fs2
HR(0°,1000-1450nm±15nm)>99.75% + R(0°,680-930nm)<10%
HR(0°, 1000-1600±10nm)>99.8% + R(0°, 700-950nm)<10%, GVD~-300….0fs2 (GVD optimized for OPO-application)
HR(0°,1010-1064nm)>99.9% + R(0°,935-980nm)>99%
HR(0°,1010-1070nm)>99.9% (High Power)
HR(0°,1020-1060nm)>99.9%, |GDD|<20fs2
HR(0°,1020-1080nm)>99.9%, |GDD|<20fs2
HR(0°, 1020-1650±10nm)~99.9%, GVD~ -200fs2 at 1080nm…0fs2 at 1650nm (GVD optimized for OPO-application)
HR(6°,1030nm)>99.9%, GDD(6°,1030nm)~ -10 000fs2 (+3000/-8000fs2)
HR(0°, 1030nm)>99.95%, GVD(0-4°,1030nm)~ -1300±150fs2
HR(0°, 1030nm)>99.98%, GDD-R(0°,1030nm)~(-550±50)fs2
HRs(8°,1030-1045nm)>99.95%, GDD(8°, Rs,1030-1045nm)= -1200±200fs2
HR(0-10°,1040-1042nm)>99.9%, GDD(0-10°, 1040-1042nm)=-10000 +/-2500 fs2
HR(0-10°,1047nm)~99.93…99.94%, GVD(0-10°,1047nm)~ -1000±150fs2
HR(0°,1050-1064nm)>99.9%, GDD(0-12°,1050-1064nm)~ -1300±150fs2
HR(0°,1050-1200nm)>99.9% + R(0°,740-830nm)<5%, GVD<20fs2
HR(0-10°,1050-1290nm)>99.9%, GVD(0°,1090-1180nm)~ -200fs2±50fs2
HR(0-10°,1050-1300nm)>99.9%, GVD(0°,1090-1160nm)~ -350fs2±50fs2
HR(0°, 1060-1600nm)>99.8%, GDD~ -150±100fs2 (GDD optimised for OPO-application)
HR(0°,1064nm)>99.9% + R(0°,532+808nm)<5%
HR(0°,1090-1400nm±15nm)>99.9%, GVD(1170-1380±15nm)~-150±25fs2
HR(0°,1120-1420nm±10nm)>99.9% + R(0°,1030nm)<10%, GVD~ -70±20fs2(1150-1380nm±10nm)
HR(0°,1130-1420nm±15nm)>99.9%, GVD(1200-1300±15nm)~-250±75fs2
HR(0°,1170-1470nm±5nm)>99.8% + R(0°,1040-1090nm±5nm)<10%, GVD~-60±10fs2(1200-1400nm±10nm)
HR(0°,1290-1650nm±20nm)>99.9% + R(0°, 1050-1100nm)<5%, GVD~ -150…0fs2(1350-1600nm)
HR(0°,1300-1350nm)>99.9% + HR(0°,1325±10nm)>99.95% (High Power)
HR(0°,1375-1575nm)=99.8±0.05%, GDD<30fs2
HR(0-10°,1400-1700nm)>99.85%, GVD(0-10°,1480-1530nm)~ -500fs2±50fs2
HR(0°, 1400-1800nm)>99.8% + R(0°, 1000-1100nm)<3%, GVD (0°, 1400-1800nm)~0….-400fs2, optimized for OPO – application
HR(0°,1420-1720nm)>99.9% + R(0°,870-1050nm)<2%, |GDD|<40fs2 (1440-1700nm)
HR(0°, 1450-1700±10nm)>99.9% + R(0°, 950-1000nm)<3%, GVD (0°, 1500-1700±10nm)~-120fs2, optimized for OPO – application
HR(0°,1550-1615nm)>99.99%, T(0°,1580nm)~0.002% (Low Loss)
HR(0°, 1600-1700nm)>99.99% low loss, T (0°, 1650nm)~0.0008%, single stack like
HR(0°,1800-2075±20nm)>99.9% + R(0°, 808 + 980nm)<2%
HR(0°,1850-2200nm)>99.9%
HR(0°, 3300nm)>99.9%, GDD(0°, 3300nm)<20fs2, single stack like
HR(0°, 840-1160±10nm)>99.9%, GVD(0-10°, 1040nm)~ -1000±100fs2
HRs(30°,210-225nm)>97% + Rs(30°,410-450nm)<5% (fluoridic)
HRs(0-22.5°,390nm)>99.9% + PRs(0-22.5°,700nm)=20±2%
HRs+p(22.5°,405nm)>99.9% + Rs+p(22.5°,810nm)<5%, GVD<20fs2
HRs(12°,1030nm)>99.9%, GVDs(12°,1030nm)~ -1300±200fs2
HRs(30°,1370-1750±5nm)>99.9%, GVDs(1600nm)~ -250fs2
HRs(30°,1480-1680±15nm)>99.9%, GVDs(1590nm)~ -550fs2
HRs(30°,1520-1740±15nm)>99.9%, GVDs(1580nm)~ -100fs2
HRs(30°,2.25-2.6μm)>99.5%+ Rs(30°,1064nm)<1%
HRr(45°,200nm)>95% (fluoridic)
HRr(45°,205nm)>95% + Rs(45°,410nm)<10%
HRr(45°,210nm)>95% (HRs(45°,205-215nm)>97%, HRp(45°,210nm)>93%) + Rp(45°,840nm)<2% (fluoridic)
HRs(45°, 210-235nm)~90% + Rp(45°, 300-1000nm)<8%, |GDD-Rs(45°, 210-235nm)| optimised
HRp(45°,252-268nm)>99.0%
HRr(45°,266nm)>99.5%
HRr(45°,270nm)>99% + Rr(45°,405+810nm)<10%
HRr(45°,266nm)>99.6%
HRs,p(45°,266nm)>98% + HRs,p(45°,400+800nm)>99%, GDD-optimiert
HRr(45°,270nm)>99.5%
HRr(45°,270nm)>99.6%
HRr(45°,270+405nm)>99%
HRs(45°,270-310nm)>99% + Rs+p(45°,390-430nm)<3%
HRr(45°,280nm)>99.5%
HRp(45°,280nm)>98% + Rp(45°,420+840nm)<3%
HRs(45°, 280-330nm)>99.5% + Rp(45°, 440-770nm)<1%, |GDD-Rs(45°, 280-330nm)|<20fs2, |GDD-Rp(45°, 285-330nm)|<20fs2, |GDD-Ts,p(45°, 440-770nm)|<10fs2
HR(0°, 285nm)>99.8% Low Loss, T(0°, 285nm)~0.03%
HRr(45°,285nm)>99.7%
HRs(45°, 320-470nm)>99.5% + Rp(45°, 600-950nm)<2%, GVD – optimiert
HRs(45°, 325-600nm)>99.5% + HRp(45°, 325-600nm)>98% typically Rp>98.5%, GDD-Rp(45°, 325-600nm)<100fs2
HRp(45°, 330-370±5nm)>99.8% + Rs(45°, 480-580±5nm)<2% + Rp(45°, 1000-1100nm)<2%
HRs(45°, 330-390nm)>99.5% + Rp(45°, 440-770nm)<1%, |GDD-Rs(45°, 330-390nm)|<20fs2, |GDD-Rp(45°, 340-380nm)|<20fs2, |GDD-Ts,p(45°, 440-770nm)|<10fs2
HRs(45°, 330- 470±4nm)>99.8%, HRp(45°, 370- 450±4nm)>99.6% + HRs(45°, 680- 950±8nm)>99.8%, HRp(45°, 700- 900±8nm)>99.6%, GVD opt. for s+p-pol. at 400nm and for p-pol. at 800nm
HRs(45°, 340-355nm)>99.5% + Rp(45°,515-530nm)<5% + Rs(45°,1020-1060nm)<10%
HRp(45°,340-500nm)>99%, |GDD-Rp(45°,340-500nm)|<60fs2
HRs(45°, 340-650nm)>99.5% typically Rs>99.8%, GDD-Rs(45°, 300-650nm)<200fs2
HRs(45°, 355nm)>99.0% + Rp(45°, 532 + 1064nm)<2% + Rs(45°, 532 + 1064nm)<10%
HRs(45°, 360-440±5nm)>99.9% + HRp(45°, 370-420±5nm)>99.8% + Rs+p(45°, 500-900nm)<5%, GVD<20fs2
HRp(45°,360-440nm)>99.7%, |GDD(Rp,45°,360-440nm)|<100fs2
HRs(45°, 360-445nm)>99.9%+HRp(45°,375-425nm)>99.8% + Rs+p(45°,500-930nm)<5%, with Rs + Rp<2% at 800nm, GDD(R+T)<20fs2
HRs(45°, 365-545nm)>99.9% + HRp(45°, 395-515nm)>99.7%, GDDp – optimized
HRr(45°,370-410nm)>99.8%, /GDD/<20fs2
HRr(45°,370-420nm)>99.9% + Rr(45°,600-980nm)<2%, /GDD/<20fs2
HRs+p(45°,375-425nmnm)>99.8% + Rs+p(45°,750-850nm)<5%, GVD<20fs2
HRr(45°,380-420nm)>99.8%, |GDD|<20fs2
HRs+p(45°, 400nm)>99.9%+Rp(45°, 500-900nm)<2%
HRp(45°, 400nm)>99.9%+Rp(45°, 900-1800nm)<2%, |GVD-Rp(45°,380-420nm)|<20fs2, |GVD-Tp(45°,900-1800nm)|~0fs2
HRr(45°, 405+810nm)>99.9%
HRs+p(45°,405nm)>99.9% + Rs+p(45°,810nm)<5%, GVD<20fs2
HRp(45±3°, 450-900nm±5nm)>99.0…99.8%, GVDp(45±3°, 470-890nm)~ -50±20fs2 (angle tuning suggested to achieve optimal GVD compensation)
HRs(45°,470-570nm)>99.9% + Rs+p(45°,700-1100nm)<5%, GVD<20fs2
HRr(45°, 515±10nm + 1030±20nm)>99.9%
HRs,p(45°,520nm)>99.9% (high power), |GDD-Rs,p(45°,520nm)|<10fs2
HRs+p(45°,625-645nm)>99.9% + Rs+p(45°,430-450nm)<3%
HRs(45°,630nm)>98.5% + Rp(45°,1270nm)<2%, GVD(T + R)<20fs2
HRr(45°, 630-1100±8nm)>99.8%
HRs(45°, 630-1100nm±8nm)>99.9%, GVD(s-pol. reflection 45°, 630-1100nm)<200fs2
HRp(45°, 640-940nm)>99.8%, GDD-Rp(45°, 640-940nm)~ -60±30fs2, oscillation compensated
HRs(45°, 650-980nm±7nm)>99.8%, GVD(s-pol. reflection 45°, 660-870nm)<30fs2
HRs(45°, 650-1150nm)>99.9% + HRp(45°, 670-1085nm)>99.7%, with smoothed GD
HRp(45°,660-1100nm)>99.8%, GVD-Rp(45°,660-1100nm)|<160fs2, GD smoothed
HRp(45°, 680-980+/-8nm)>99.9%, GVDp-optimized
HRs(45°, 680-1000nm)>99.9%, GDD(s-pol. reflection 45°, 690-920nm)<20fs2
HRr(45°, 680-1100nm)>99.8%
HRr(45°, 690-820nm±8nm)>99.9%, GVD(Rs + Rp)<20fs2
HRs(45°, 690-1000+/-8nm)>99.9%, GVDs-optimized
HRp(45°, 700-860±6nm)~99.7%, GVDp~0….-200fs2
HRs+p(45°, 700-900+/-10nm)>99.9% + Rp(45°, 350-450+/-5nm)<7%, GVD optimiert für Tp + Rp (siehe Datenblatt)
HRs(45°,700-1000nm)>99.9%, GDD-Rs(45°,700-1000nm)<120fs2
HRs(45°,700-1000nm)>99.95%, GDD-Rs(45°,700-1000nm)=-50±50fs2
HRp(45°, 700-1010+/-8nm)~99.9%, GDp-optimized
HRr(45°,720-850nm±10nm)>99.9%, GVD(Rs + Rp)<20fs2
HRs(45°,730-830nm)>99.99%, |GDD|<20fs2
HRs(45°, 730-850nm±8nm)>99.9%, GDD-Rs(45°, 730-850±8nm)~ -40±20fs2
HRr(45°,720-880±10nm[Rs(45°, 690-935nm) + Rp(45°, 725-875nm)])>99.9%, GVD(Rs700-920 + Rp740-860nm)<20fs2
HRr(45°,740-820±5nm)>99.9%, GVD<20fs2
HRs(45°,740-840nm)>99.9% + Rp(45°,860-1600nm)<5%, GDD-optimised
HRr(45°,740-860nm)>99.9%, GVD<20fs2
HRr(45°, 740-880nm)>99.9%, GDD<20fs2
HRr(45°,750-850nm)>99.9% + Rr(45°,532nm)<5%, GVD<20fs2
HRp(45°,750-850nm)>99.5% + HRs(45°,750-850nm)>99.8%, GVD<20fs2
HRr(45°,750-850nm)>99.9%, GDD<20fs2
HRs,p(45°, 750-850nm)>99.9%, |GDD-Rs,p(45°, 750-850nm)|<20fs2
HRr(45°,760-850nm±5nm)>99.9% + Rr(45°,360-440nm±5nm)<2%, GVD<20fs2
HRr(45°,760-900±8nm)>99.9%, GVD<20fs2
HRs(45°,760-920nm)>99.9% + Rs+p(45°,550-700nm)<5%, GVD(T)<25fs2
HRr(45°,765-880nm)>99.8%, GVD<20fs2
HRr(45°,770-860nm)>99.9% + Rr(45°,380-430nm)<5%, GVD<20fs2
HRs+p(45°,800±20nm)>99.9% + Rs+p(45°,400±10nm)<5%, GVD<20fs2
HRp(45°,808nm)>99.9% + Rs(45°,1200-1600nm)<5%, GDD<20fs2
HRs(45°,800nm)>99.9% + Rp(45°,1200-2800nm)<3%, GDD<20fs2
HRr(45°,800-900nm)>99.8%, GVD<20fs2
HRr(45°,840-940±8nm)>99.9%, GVD<20fs2
HRr(45°,870-990nm)>99.9%, GDD<20fs2
HRr(45°,880-990nm)>99.9%, GDD<20fs2
HRr(45°,890-1000nm)>99.9%, GDD<20fs2
HRp(45°,960-1440nm±15nm)>99.7%, GVD(1170-1380±15nm)~-200±100fs2
HRr(45°, 970-1110nm)>99.9%, GDD optimised
HRs(45°, 1030nm)>99.9%, GVDs(45°,1030nm)~ -1300±200fs2
HRr(45°,1064nm)>99.8% + HRr(45°,1450-2000nm)>99% + HTr(45°,2300-4000nm)
HRr(45°,1160-1350nm±10nm)>99.9%, GVD<20fs2
HRp(45°,1470-1570±10nm)>99.9%
HRp(45°,1490-1590nm±10nm)>99.9%
HRr(45°,1550±50nm)>99.9%
HRs(45°, 2170-2230±20nm)>99.9% + Rp(45°, 1064nm)<5% + Rp(45°, 2040-2070nm)<5%
HRs(45°,2090nm)>99.9%
HRs(45°, 2096nm)>99.9% + Rs+p(45°, 800nm)<10% + Rs+p(45°, 1907nm)<5%
HRs(45°,2096nm)>99.8% + Rs+p(45°,1907nm)<5%
HRs(50°-80°, 266nm )>99.2% + HRs(50°-80°, 400nm)>99.5%
TFP(65-70°, 266nm) Rs>97% Rp<10%, angle tuning suggested to achieve Tp(max)
TFP(54°, 346nm) Rs>99.5% Rp<2%
TFP(57°,390nm) Rs>99.8% Rp<2%
TFP(56°,400nm) Rs>99.8% Rp<2%
TFP(54°, 520nm) Rs>99.9% Rp<2%
TFP Rs(70°, 600-1000nm)=80(±4)% Rp(70°, 600-1000nm)<5%, |GDD-Rs(70°,600-1000nm)|<5fs2
TFP Rs(80°, 700-900nm)>94% Rp(80°, 710-890nm)<5%, |GDD-Rs(80°,700-900nm)|<5fs2
TFP(65±5°, 760-840nm) Rs>99.8% Rp<2%
TFP(55°,750nm) Rs>99.9% Rp<2%
TFP(65±2°, 750-825nm) Rs>99.8% Rp<2%(65±2°, 765-850nm), GVDs+p opt.
TFP(55°+/-1°, 915nm) Rs>99.9% Rp<2%
TFP(55°+/-1°, 943nm) Rs>99.9% Rp<2%
TFP(56±3°,1035-1055nm) Rs>99.8% Rp<2% (with angle adjustment ±3°)
TFP[55°(±3°)*, 1550nm] Rs>99.9% Rp<2% (*angle adjustment for optimising working point)
PR(0°,310-430nm±10nm)=99±0.3%
PR(0°, 420nm)=95±0.5%
PR(0°,420-640nm±10nm)=99±0.5%
PR=99.5±0.3%(0°, 430-690±8nm), GVD(0°, 430-690nm)~-20±20fs2, (GVD-oscillation compensated)
PR(0°, 480-720nm)=86±2%, GVD optimized
PR(0°,500-750nm)=90±2%, GVD<20fs2
PR(0°,540-620nm)=90±2%
PR(0°,580-870nm)=50±3%, GVD<20fs2
PR(0°, 600-1000nm)=20±4%, GDD(T + R)<20fs2
PR(0°, 630-730nm)=96±2% + PR(0°, 760-880nm)=90±2% + PR(0°, 980-1080nm)=96±2%
PR(0°,630-1050nm)=97±1%
PR(0°,630-1120nm)=97±1%
PR(0°,640-700nm±10nm)=99±0.5%
PR(0°, 640-1050nm)=89±2%, GDD optimised
PR(0°, 640-1100nm)=90±2%, GVD optimized
PR(0°, 650-1100nm)=80±5% + R(0°, 488-532nm)<5%, GVD opt.
PR(0°,660-920nm)=70±2%, GVD<50fs2
PR(0°,660-920nm)=80±2%, GVD<50fs2
PR(0°,660-920nm)=85±2%, GVD<50fs2
PR(0°,660-920nm)=90±2%, GVD<50fs2
PR(0°,660-920nm)=95±2%, GVD<50fs2
PR(0°,660-920nm)=97±0.75%, GVD<50fs2
PR(0°,660-920nm)=98±0.5%, GVD<50fs2
PR(0°,660-920nm)=98±0.75%, GVD<50fs2
PR(0°,660-920nm)=99±0.3%, GVD<50fs2
PR(0°,660-920nm)=99±0.5%, GVD<50fs2
PR(0°,660-920nm)=75±2%, GDD<50fs2
PR(0°, 680-730nm)=96±1% + PR(0°, 800-900nm)=90±1% + PR(0°, 950-1100nm)=96±1%
PR(0°,680-1100nm)=85±3%
PR(0°,680-1100nm)=90±2%
PR(0°,680-1100nm)=92±2%
PR(0°,680-1100nm)=95±1%
PR(0°,680-1100nm)=96±1%
PR(0°,680-1100nm)=97±1%
PR(0°,680-1100nm)=98±1%
PR(0°, 680-1100nm)=99±0.3%, GDD optimized
PR(0°,680-1100nm)=99±0.5%
PR(0°,700-850±7nm)=97±0.5%, GVD~0fs2
PR(0°,700-900nm)=80±3%, GDD~0fs2
PR(0°,700-900nm)=85.0±1.5%, |GDD|<20fs2
PR(0°,700-900nm)=85±3%, GDD<20fs2
PR(0°,700-900nm)=85±3%, GVD<20fs2
PR(0°,700-900nm)=90±2%, GVD<20fs2
PR(0°,700-900nm)=93±2%, GDD<40fs2
PR(0°,700-890nm)=95±2%, GVD<20fs2
PR(0°,700-900nm)=95±1%, GVD<20fs2
PR(0°,700-900nm)=97±0.75%, GVD<20fs2
PR(0°,700-900nm)=98±0.5%, GVD<20fs2
PR(0°,700-900nm)=99±0.3%, GDD<20fs2
PR(0°, 730-870±8nm)=98.8±0.3%, GVD~20fs2
PR(0°,730-870±8nm)=99.0±0.15%, GDD~20fs2
PR(0°,730-870±8nm)=99.75±0.1%, GVD~20fs2
PR(0°, 730-900±8nm)=90.0±2%, GVD<20fs2
PR(0°, 740-860±8nm)=99.5±0.15%, GVD~20fs2
PR(0°,750-850nm)=85±3%, GVD<20fs2
PR(0°,750-850nm)=86±2%, GVD<20fs2
PR(0°,750-850nm)=88±2%, GVD<20fs2
PR(0°,750-850nm)=90±2%, GVD<20fs2
PR(0°,750-850nm)=93±1%, GVD<20fs2
PR(0°,750-850nm)=94±1%, GVD<20fs2
PR(0°,750-850nm)=95±0.75%, GVD<20fs2
PR(0°,750-850nm)=97±1%, GVD<20fs2
PR(0°,750-850nm)=98±0.5%, GDD<20fs2
PR(0°,750-850nm)=99.75±0.10%, |GDD|<20fs2
PR(0°,750-850±8nm)=99.9±0.05%, |GDD|<20fs2
PR(0°,750-850nm)=99.0±0.3%, GDD<20fs2
PR(0°, 750-850nm)=50±3%, |GDD|<20fs2
PR(0°, 750-850nm)=70±3%, |GDD|<20fs2
PR(0°,750-920nm)=95±1%, GVD<20fs2
PR(0°,770-800nm)=98.8±0.2%, GVD<20fs2
PR(0°,770-800nm)=98±0.2%, GVD<20fs2
PR(0°,770-870+/-8nm)=95±0.75%, GVD<20fs2
PR(0°,770-870+/-8nm)=97±0.5%, GVD<20fs2
PR(0°,780-850nm)=95±1%, |GVD|<20fs2
PR(0°,780-850nm)=98±0.5%, GVD<20fs2
PR(0°,795+950nm)=99.85±0.075%
PR(0°, 800nm±50nm)=87±1%, GVD<20fs2
PR(0°,840-920nm)=98±1%, GVD<20fs2
PR(0°,850nm)=40±1%, GVD~0fs2
PR(0°,850nm)=60±1%, GVD~0fs2
PR(0°,850nm)=65±1%, GVD~0fs2
PR(0°, 850-910nm)=73±3%, GVD<20fs2
PR(0°, 850-910nm)=83±3%, GVD<20fs2
PR(0°, 850-910nm)=90±2%, GVD<20fs2
PR(0°,860nm)=92.5±0.2%
PR(0°,860nm)=93.7±0.2%
PR(0°, 930-1140nm)=99.5±0.3%
PR=99.0±0.5% (0°, 950-1450±10nm), GD optimized for OPO-application
PR(0°, 980-1080nm)=90±2%, GVD<20fs2
PR(0°, 980-1080nm)=97±0.75%, GVD<20fs2
PR(0°,980-1110nm)=97.5±0.5%, GVD<20fs2
PR(0°,1000-1100nm)=97.5±0.5%, GDD<20fs2
PR(0°,1000-1100nm)=90±1%, |GDD-R(0°, 1000-1100nm)|<40fs2
PR(0°,1000-1100nm)=85±1%, |GDD-R(0°, 1000-1100nm)|<40fs2
PR(0°,1000-1100nm)=80±2%, |GDD-R(0°, 1000-1100nm)|<20fs2
PR(0°,1000-1100nm)=92.5±1.0%, |GDD(0°, 1000-1100nm)|<40fs2
PR(0°,1030-1064nm)=99.7±0.15%
PR(0°, 1040±50nm)=95±0.75%, GVD<20fs2
PR(0°, 1040±50nm)=97.6 -0.1+0.4%, GVD<20fs2
PR(0°, 1040±50nm)=98.4 -0.3+0.1%, GVD<20fs2
PR(0°, 1040±50nm)=99.2 -0.1+0.4%, GDD<20fs2
PR(0°, 1040±50nm)=99.6±0.1%, GVD<20fs2
PR(0°, 1040±50nm)=99.8±0.1%, GVD<20fs2
PR(0°,1300-1350nm)=96±1%
PR=85.0±3% (0°, 1400-1800±10nm), GVD optimized for OPO-application
PR(0°,1500-1600nm)=99.0…99.3%, |GVD|<40fs2
PR(0°,1535nm)=99.92±0.2%
PR(0°, 1820-2050nm)=85±1%
PR(0°, 1820-2050nm)=91±1%
PR(0°, 1820-2050nm)=95±1%
PR(0°, 1820-2050nm)=97±1%
PR(0°, 1820-2050nm)=98.5±0.5%
PRp(22.5°, 750-850nm)=80±5% + Rp(22.5°, 450-695 + 920-1000nm)<10%
PRp(45°,350-450nm)=50±5% + PRr(45°,630-650nm)=50±5%, GVD<20fs2
PRp(45°,350-470nm)=50±5%, GVD<20fs2
PRs(45°, 360-430nm)=50±3%, GVD~0fs2
PRs(45°, 370-430nm)=50±5%, GVD(R+T)<20fs2
PRp(45°,370-430nm)=50±5%, |GDD-Rp/Tp(45°,370-430nm)|~0fs2
PRp(45°,380-420nm)=60±3%, GVD~0fs2
PRp(45°,380-420nm)=70±3%, GVD~0fs2
PRp(45°,380-420nm)=80±3%, GVD~0fs2
PRp(45°,380-420nm)=99±0.5%, |GDD|<20fs2
PRs(45°,440-1020±10nm)=50±3%, GVD~0fs2
PRs(45°,440-1040nm)=48±2%, GVD~0fs2
PRs(45°,450-1030nm)=51±3%, |GVD|<20fs2
PRp(45°,515-532nm)=90±1%, GVD<20fs2
PRp(45°,520-1100nm)=20±4%, GVD(R+T)<20fs2
PRp(45°,520-1100nm)=10±3%, |GDD-Rp,Tp(45°, 520-1100)|<20fs2
PRp(45°,540-950nm)=80±3%, GVD(R+T)<30fs2
PRs(45°,550-1050nm)=50±4%, GVD~0fs2
PRp(45°,560-1020nm)=33±3%, GVD<20fs2
PRp(45°, 600-1000nm)=20±4%, GDD(T + R)<20fs2
PRp(45°, 600-1000nm)=48±2%, GVD(T + R)<20fs2
PRp(45°,600-1000nm)=50±3%, / GDD< 20fs2/
PRp(45°, 600-1000nm)=50±3%, GDD(T + R)<20fs2
PRp(45°,600-1000nm)=66±3%, GVD<20fs2
PRs(45°,600-1000nm)=80±2%, GVD(R+T)<30fs2
PRp(45°, 600-1000nm)=80±3%, GDD(T + R)<20fs2
PRp(45°, 600-1000nm)=75±3%, |GDD-Tp / Rp|<20fs2
PRp(45°,600-1030nm)=99.0±0.5%, GDDp optimiert
PRp(45°,600-1050nm)=50±5%, GDDp optimiert
PRs(45°,600-1050nm)=99.0±0.3%, GDDs optimiert
PRs(45°,600-1070nm)=50±5%, |GDDs(R+T)|~0fs2
PRp(45°, 600-1220nm)=50±4%, GDD(T + R)<20fs2
PRp(45°,620-1050nm)=48±2%, GVD~0fs2(R+T)
PRp(45°,620-1050nm)=50±2%, GVD~0fs2(R+T)
PRp(45°, 620-1060nm)=67±3%, GVD~0fs2(R+T)
PRp(45°,620-1100nm)=30±3%, GVD~0fs2(R+T)
PRp(45°,630nm)=50±3%, GVD(T + R)<20fs2
PRp(45°,640-940nm)=33±3%, GVD~0fs2
PRs(45°,650-1100nm)=50±3%, |GDD|<20fs2
PRp(45°,660-920nm)=33±3%, GVD~0fs2
PRs(45°, 670-1050nm)=49±2% Rp(45°, 670-1050nm)~20±2%, GVD(R+T)<20fs2
PRp(45°,680-920nm)=50±4%, GVD~0fs2
PRp(45°, 680-1100nm)=20±4%, GDD~0fs2(R+T)
PRp(45°,680-1100nm)=80±3%, GVD~0fs2(R+T)
PRp(45°,700-900nm)=10±2%, GVD~0fs2
PRp(45°,700-970nm)=27±2%, GVD~0fs2
PRp(45°,700-1000nm)=20±2%, GVD~0fs2
PRp(45°,700-1000nm)=7±2%, GVD~0fs2
PRp(45°,700-1000nm)=17±2%, GDD~0fs2
PRp(45°,710-940nm)=7±1.5%, GVD~0fs2
PRp(45°,720-860nm)=80±3%, GDD optimised
PRp(45°,720-860nm)=92±1%, GDD optimised
PRp(45°,720-860nm)=96±1%, GDD optimised
PRs(45°,720-860nm)=90±2%, |GDD|~0fs2
PRp(45°,720-860nm)=90±2%, |GDD|~0fs2
PRp(45°,720-870nm)=50±5%, GVD~0fs2
PRs(45°,730-860nm)=30±3%, GVD<20fs2
PRs(45°,730-860nm)=40±3%, GVD<20fs2
PRs(45°,730-860nm)=60±3%, GVD<20fs2
PRs(45°,730-860nm)=70±3%, GVD<20fs2
PRp(45°,740-860nm)=50±3%, GVD(T + R)<20fs2
PRp(45°,740-860nm)=66±3%, GVD<20fs2
PRp(45°,740-860nm)=75±3%, |GDD|<20fs2
PRp(45°,740-860nm)=90±1%, GDD~0fs2
PRp(45°,740-860nm)=90…94% + PRs(45°,740-860nm)=98…99%, |GVD|<20fs2
PRp(45°,740-860nm)=95±1%, GDD~0fs2
PRp(45°,750-850nm)=10±3%, GVD<20fs2
PRp(45°,750-850nm)=20±3%, GVD<20fs2
PRp(45°,750-850nm)=30±3%, GVD<20fs2
PRp(45°,750-850nm)=30±3%, GVD~0fs2
PRp(45°, 750-850nm)=35(±3)%, |GDD-Rp,Tp(750-850nm)|<20fs2
PRp(45°,750-850nm)=50±3%, GVD<20fs2
PRp(45°,750-850nm)=50±3%, GVD~0fs2
PRp(45°,750-850nm)=60±3%, |GDD|<20fs2
PRp(45°,750-850nm)=63(±3)%, |GDD|<20fs2
PRs(45°,750-850nm)=70±3%, GVD~0fs2
PRp(45°,750-850nm)=75±2%, GVD<20fs2
PRs(45°,750-850nm)=80±3%, GVD~0fs2
PRp(45°,750-850nm)=80±2%, |GDD|<20fs2
PRp(45°,750-850nm)=85±1%, GVD<20fs2
PRp(45°,750-850nm)=87.5(±2)%, |GDD|<20fs2
PRp(45°,750-850nm)=90±3%, |GDD|~0fs2
PRp(45°,750-850nm)=92±1%, GVD<20fs2
PRs(45°,750-850nm)=95±1%, |GDD|<20fs2
PRp(45°,750-850nm)=95±1%, |GDD|<20fs2
PRp(45°,750-850nm)=99±0.5%, |GVD|<20fs2
PRs(45°,750-850nm)=50±3%, /GDD/<20fs2
PRp(45°,800nm)=37±2%, GVD~0fs2
PRp(45°,840-960nm)=30±2%, GVD~0fs2
PRp(45°, 1170-1330nm)=50±3%, GVD(T + R)<20fs2
PRp(45°,1270nm)=50+2%/-5%, GVD(T + R)<20fs2
PRp(55.5°, 785nm)=73±2%, GVD<20fs2
AR(0°,355+532nm)<0.5% + AR(0°,1064nm)<0.2%
AR(0°, 550-1100nm)<1.5% (<1.0% avg.)
AR(0°,600-1000nm)<0.5%
AR(0°,600-1080nm)<0.5%
AR(0°,610-1080nm)<1.0% + AR(0°,630-1030nm)<0.6%
AR(0°,700-900nm)<0.25%
ARr(45°, 700-950nm)<1.5%
AR(0°,1010-1070nm)<0.2%