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化工儀器網(wǎng)>產(chǎn)品展廳>常用儀表>光學(xué)儀表>其它光學(xué)儀表> 德國LAYERTEC激光鏡片 飛秒激光反射鏡

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德國LAYERTEC激光鏡片 飛秒激光反射鏡

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成都科盛達(dá)光電技術(shù)有限公司是一家致力于光電子學(xué)領(lǐng)域的設(shè)備研發(fā)、代理與系統(tǒng)集成的綜合業(yè)務(wù)提供商。業(yè)務(wù)覆蓋國內(nèi)的各大高校,研究所,以及企事業(yè)單位。我們具有專業(yè)的背景,*的服務(wù)和豐富的經(jīng)驗(yàn),不僅提供設(shè)備,同時針對客戶的不同需求,提供專業(yè)的解決方案,主要產(chǎn)品有激光器,激光功率計(jì)能量計(jì),光源,光電探測器,紅外元件,THz器件,超快光學(xué)元件及系統(tǒng),光快門等。成都科盛達(dá)光電-專注光電產(chǎn)品與服務(wù)。

激光器,激光功率計(jì)能量計(jì),光學(xué)鏡片,石墨烯,CCD相機(jī),THz元件,

LAYERTEC主要產(chǎn)品包括:
各種連續(xù),納秒,皮秒,飛秒激光元件以及研究應(yīng)用的寬帶鏡,啁啾鏡(負(fù)色散鏡)

連續(xù)及納秒激光元件

■ Nd:YAG/YLF 262-266 nm

 Nd:YAG/YLF/Glass 342-355 nm

 Ar+ / Kr / HeNe 458-647 nm

 Coatings 500-1000 nm

 Nd:YAG/YLF/Glass 515-532 nm

 Rubin 694 nm

 Nd/Yb:YAG/YLF 1030-1064 nm

 Coatings 1000-2000 nm

 Ho/Tm:YAG 2010-2100 nm

 Er:YAG 2940 nm

納秒激光元件:

    F2 157 nm

    ArF 193 nm

    KrF 248 nm

    Nd:YAG/YLF 262-266 nm

    Nd:YAG/YLF/Glass 342-355 nm

    Nd:YAG/YLF/Glass 515-532 nm

    Nd/Yb:YAG/YLF 1030-1064 nm

皮秒激光元件

 Ti:Sapphire 650-1150 nm  Nd/Yb:YAG/YLF 1030-1064 nm

飛秒激光元件

  Ti:Sapphire 200-300 nm

 Ti:Sapphire 325-575 nm

 Coatings 500-1000 nm

 Ti:Sapphire 650-1150 nm

 Nd/Yb:YAG/YLF 1030-1064 nm

 Coatings 1000-2000 nm

低色散鏡:

一般應(yīng)于于超快激光器的腔鏡,輸出耦合鏡,分光鏡,具有大的光譜帶寬和精確的色散控制。低色散意味著IGVDI<20fs,標(biāo)準(zhǔn)帶寬是200nm左右(中心波長在800nm左右),更寬的可以達(dá)到300nm。另外,金屬鍍膜鏡也具有寬帶寬低色散的特性。

高功率飛秒光學(xué)元件:

高激光損傷閥值,對于150fs脈沖激光來說,損傷閾值可以超過0.75J/cm2。

金屬反射鏡:

 Aluminum Mirrors

 Silver Mirror

 Gold Mirrors

寬帶高反射鏡:

 Coating 3001-1000nm, R>99.9%

負(fù)色散鏡:

LAYTERTEC的負(fù)色散鏡具有非常高的反射率(R=99.8% >99.9%),因此可以提高反射次數(shù)來達(dá)到補(bǔ)償效果,反射次數(shù)可達(dá)1020次。

?納秒激光鏡片

Different
Articles
Articles
in Stock
Coating
10HR(0°,157nm)>=92%
22HR(0°,193nm)>96%
10HR(9°-12°,193nm)>96%
14HRr(0°,260nm)>99.5%
10HRr(0°,266nm)>99.5%
13HR(0°,355nm)>99.9%
15HR(0°,355nm)>99.85%
14HRs,p(8.5°, 355nm)>99.75% + Rs,p(8.5°, 532nm)<0.5% + Rs,p(8.5°, 1064nm)<5% (high power)
1> 10HRs,p(0-20°, 355nm)>99% + HRs,p(0-20°, 532nm)>99% + Rs,p(0-20°, 1064nm)<1%
13HR (0°, 515-532nm) >99,9% + R (0° , 1030-1064nm) <1%
10HR(0-10°, 532nm)>99.8% + R(0-10°, 1064nm)<1% (High Power)
17HR(0-10°,532nm)>99.9% + R(0-10°,1064nm)<0.5% (high power)
29HR(0°, 532nm)>99.95% + R(0°, 1064nm)<0.25%, T(0°, 532nm)~0.015%
10HRs,p(5-15°, 532nm)>99.9% + Rs,p(5-15°, 1064nm)<1% (high power)
21HR(0° + 18°, 655-755nm)>99.9% + R(0° + 18°, 532nm)<2%, |GDD-R(0° + 18°, 655-755nm)|<40fs2
410HR(0°,1010-1060nm)>99.9%
10HR(0°, 1020-1070nm)>99.9% (High Power)
20HR(0°,1030nm)>99.98% (High Power)
3> 10HR(0-10°,1030nm)>99.99% (High Power)
13> 10HR(0-10°,1030nm)>99.98% + R(0-10°,630-650nm)>50% (high ns-laser power)
11HRr(25°-29°,157nm)>92%
10HRr(30°,193nm)>96%
19HRs(33°,1030nm)>99.98% (High Power ns-laser pulses)
71HRr(45°,157nm)>89%
10HR(45°,162nm)>90%
50HRr(45°,193nm)>95%
29HRs(45°,213nm)>97% + Rp(45°,266nm)<2% + Rs(45°,532nm)<10% + Rp(45°,1064nm)<2%
12HRr(45°, 248nm)>98% (fluoridic)
30HRr(45°,248nm)>99%
10HRr(45°,248nm)>99% + Rr(45°,355+848nm)<10%
19HRs(45°,266nm)>99.5% + Rp(45°,532+1064nm)<2% + Rs(45°,532+1064nm)<10%
210HRr(45°, 308nm)>99.5%
10HRr(45°, 308nm)>99.8%
10HRs(45°,343nm)>99.9% + Rp(45°,515nm)<0.2% + Rs(45°,1030nm)<0.2%
10HRr(45°,351nm)>99.5%
11HRr(45°, 355nm)>99.5%
15HRr(45°, 355nm + 532nm)>99.5%
14TFP(45°,355nm) Rs>99.5% Rp<2%
16HRp(45°, 355nm)>99.8% + Rs(45°, 532nm)<1% + Rp(45°, 1064nm)<1%
110HRs,p(45°, 532nm)>99.8% + Rs,p(45°, 1064nm)<2% (high power)
10HRs,p(45°,1030nm)>99.96% (Zero Phase Shift)
10HRr(45°,1030nm)>99.98% (High Power)
10HRs(45°, 1030-1064nm)>99.9% (High Power)
11HRr(45°, 1064nm)>99.9%
1> 10HRr(45°, 1064nm + 532nm)>99.8% + HRr(45°,355nm)>99.4%
13HRr(45°,1064nm)>99.9% + Rr(45°,532nm)<10%
10HRr(45°,1064nm)>99.9%+HTr(45°, 532+808nm)>90%
1> 10HRs(22.5°,343nm)>99.8% + Rp(22.5°,515nm)<1% + Rs(22.5°,1030nm)<1%
1> 10TFP(56°, 355nm) Rs>99.5% Rp<2%
12TFP(56°(±3°)*, 532nm) Rs>99.8% Rp<2%, (±3°)* angle adjustment
12PR(0°, 650-720nm)=80±5% + R(0°, 740-950nm)<10% (analogous F0305017)
110PRr(45°,193nm)=30+/-3%
10PRr(45°,248nm)=50±3%
10PRs,p(45°,532nm)=50±5%, |Rs-Rp|<5%
10PRp(45°, 1030-1064nm)=30.0±2%
13PRs(45°,1047-1064nm)=95.00±0.75%
10VAr(0-45°,157nm) T=80-10%
12VAr(0-45°,193nm) T=88-2%
36AR(0°,193nm)<0.25%
12AR(0°,248nm)<0.25%
10AR(0°,355nm)<0.25%
10AR(0°, 808+1064nm)<0.2%
10AR(0°,940-1060nm)<0.2%
12AR(0°,1010-1060nm)<0.25%
12AR(0°,1030nm)<0.2%
10AR(0°,1030-1064nm)<0.15%
11> 10AR(0°,1030-1080nm)<0.25%
10ARr(45°,266nm)<0.6%

?飛秒激光鏡片

Different
Articles
Articles
in Stock
Coating
31HR(0°,158.5nm)>92% + R(0°,266+800nm)<10%
20HR(0°,200nm)>96% (fluoridic)
14HR(0°, 220nm)~85% + R(0°, 350-800nm)<10%, band width ~35nm with R~80...90%, |GDD-R(0°, 220)| <20fs2,
20HR(0°, 240-330±3nm)>95% + R(0°, 600-920nm)<5%, GDD opt.
1> 10HR(0°, 250-400±5nm)>95.0%, GDD( 0°, 265-385nm)~ -10±10fs2, (GDD-oszillation compensated)
3> 10HR(0°,267nm)>99% + HR(0°,400nm)>99.3% + HR(0°,800nm)>99.7%, GDD-optimiert
11HR(0°,267nm)>99.5% + R(0°,400+800nm)<5%, GVD<20fs2
2> 10HR(0°, 315-450±5nm)>99.8%, GDD(330-440nm)~ -25±10fs2, (GDD-oszillation compensated)
15HR(0°, 310-460±5nm)>99.8%, GVD(350-470nm)~-30....+20fs2, (GVD-Oscillation compensated)
1> 10HR(0°, 310-480nm)>99.7%, GDD(340-490nm)~ -25±50fs2
24HR(0°,340-390nm)>99.8%
26HR(0°,340-450nm)>99.8%, GVD(350-450nm±10nm)~ -25±20fs2
1> 10HR(0°,340-460nm)>99.8%,|GDD(R,0°,340-460nm)|<40fs2
14HR(0°, 340-540nm)>99.0% + HR(0°, 665-1070nm)>99.7%, GD opt.
1> 10HR(0°, 360-410nm)>99.9%, GVD<20fs2
7> 10HR(0°,360-435nm±5nm)>99.9% + R(0°,700-950nm)<2%, GVD<20fs2
221.Mirror:HR(0-8°,360-480nm)>99.5%, 2.Mirror:+10nm, GVD(360-480nm)~-15±15fs2, (GVD-Oscillation compensated)
12> 10HR(0°,370-425nm)>99.8%, |GDD|<20fs2
13HR(0°, 370-430nm)>99.8%, |GVD|<20fs2
25HR(0°, 370-430±5nm)>99.8% + R(0°, 500-1000nm)<2%, |GDD|<20fs2
34HR(0°,370-430nm±5nm)>99.9% + R(0°,690-880nm)<2%, |GDD|<20fs2
410HR(0°,380-420nm)>99.8%, |GDD|<20fs2
46HR(0°,380-440nm±5nm)>99.9% + R(0°,700-900nm)<2%, GVD<20fs2
12> 10HR(0°,390-440nm)>99.9%, GVD<20fs2
36HR(0°, 390-440+/-4nm)>99.96%, T~0.005...0.03%, Low Loss
8> 10HR(0°, 400+800nm)>99.8%
1> 10HR(0°, 409nm)>99.98%, T~0.002%, Low Loss
10HR(0°,410-470nm)>99.9%, GDD<20fs2
5> 10HR(0°, 420-810±6nm)>99.7..99.8%, GVD(470-810nm)~ -40fs2±20fs2 , (GVD-Oszillation compensated)
47HR(0°, 440-660nm)>99.85%, GDD-R(0°, 480-660nm)~ -30....-15fs2 (GDD - oscillation compensated and TOD optimized)
1> 10HR(0°, 440-720nm)>99.85%, |GDD-R(0°, 440-720nm)|<150fs2
4> 10HR(0°, 480-640nm)>99.85%, GDD-R(0°, 480-630nm)~ -70....-40±30fs2 (GDD - oscillation compensated and TOD optimized)
32HR(0-15°, 480-960nm)>99.6..99.8%, GVD(510-920nm)~ -40fs2±20fs2 , (GVD-Oszillation kompensiert)
10PR(0°,490-750nm)=86±2%, GDD optimised
110HR(0-10°,500-650nm)>99.9%
151.mirror:HR(0°,500-950±10nm)>99.6%, 2.mirror:-20nm, GDD(500-930nm)~ -40±20fs2, (GDD-oscillation compensated)
10HR(0°, 510-520nm)>99.9% + PR(0°, 1020-1040nm)=70(±3)%, |GDD-R(0°, 510-520nm + 1020-1040nm)|<100fs2
10HR(0°, 510-520nm)>99.9% + PR(0°, 1020-1040nm)=80(±3)%, |GDD-R(0°, 510-520nm + 1020-1040nm)|<100fs2
10HR(0°, 510-520nm)>99.9% + PR(0°, 1020-1040nm)=90(±2)%, |GDD-R(0°, 510-520nm + 1020-1040nm)|<100fs2
10HR(0°, 510-520nm)>99.9% + PR(0°, 1020-1040nm)=95(±1)%, |GDD-R(0°, 510-520nm + 1020-1040nm)|<100fs2
30HR(0°,515+1030nm)>99.8% + R(0°,808nm)<5%
10HR(0°, 532nm)>99.9%
10> 10HR(0°, 540-1040±8nm)>99.7%, GVD(570-1040nm)~ -40±20fs2, (GVD-oszillation compensated)
23HR(7°, 500-1000nm)>99.4%, GDD(R,7°,500 -1000nm) designed to compensate 1,5mm FS per double bounce
59HR(0°, 560-1000nm)>99.9%, GVD(620-980nm)~-40fs2±15fs2 , (GVD-oszillation compensated)
10HR(0°, 570-820nm)>99.85%, GDD-R(0°, 570-820nm)~ -35....-15fs2 (GDD - oscillation compensated and TOD optimized)
1> 10HR(0°, 570-840±5nm)>99.8%, GD optimized
25HR(0°, 570-1020nm)>99.7%, GDD osc. comp. (0°, 680-980nm)-80fs2...+50fs2, TODopt.
15HR(0°, 570-1030±8nm)>99.8%, GVD(0°, 600-1020nm)~ -50fs2±20fs2 , (GVD-Oszillation kompensiert)
7> 101.Mirror:HR(0°, 580-980±10nm)>=99.9%, 2.Mirror:+20nm, GVD(650-1000nm)~ -50±20fs2, (GVD-Oscillation compensated)
15HR(0°, 580-1020±10nm)>99.8%, GVD-oscillation(700-1000nm)~-100...0fs2
410HR(0°, 580-1030±8nm)>99.9%, GVD(650-1000nm)~ -50fs2±20fs2 , (GVD-oszillation compensated)
44HR(0°, 580-1060±8nm)>99.8%, GDD - oscillation~-120...+40fs2
10HR(0°, 600-700nm±6nm)>99.9%, GVD<20fs2
5> 10both mirrors: HR(0°, 600-900nm)>99.8%, GVD (600-900nm)~ -45fs2±20fs2, (GVD-Oscillation compensated, see data sheet)
27HR(0°, 600-930nm)>99.9%, GVD(700-950nm)~ -65±20fs2 (GVD-Oszillation compensated)
24HR(0°, 600-980nm)>99.9%, GVD(700-880nm)~-100fs2...+40fs2
3> 10HR(0°, 610-1030nm±10nm)>99.8%
1> 10HR(0°, 620-720nm±5nm)>99.9%
17HR(0°, 620-900±8nm)>99.9%, GVD(700-900nm)~ -65±20fs2(GVD oscillation compensated)
15HR(0-12°, 620-1000±7nm)>99.8%, GVD(680-900nm)~-60±20fs2
6> 10HR(0°, 620-1000nm)>99.85%, GDD(0°, 700-1000nm)~ -50±20fs2, GDD - osz. compensated
13> 10HR(0°, 620-1050nm)>=99.9% + R(0°, 490-540nm)<5%, GDD(680-1020nm)~ -50+/-20fs2, (GDD-oszillation compensated)
24HR(0°,620-1080nm)>99.9% + R(0°,488-532nm)<5%
8> 10HR(0°, 620-1120±10nm)>99.9%, GD optimized
10> 10HR(0°, 630-980nm)>99.7% + R(0°, 515-545nm)<10%, GDD(700-1020nm)~ -70+/-30fs2, (GDD-oszillation compensated)
8> 10HR(0°, 630-1100±8nm)>99.8% + R(0°, 480-540nm)<10%
610HR(0°, 630-1140+/-10nm)>99.85%, GVD~-200fs2....100fs2
18HR(0°, 630-1200nm)>99.8%, |GDD-R(0°, 650-1150nm)|<400fs2
14> 10HR(0°,640-1000nm)>99.8% + R(0°,(510-545)±5nm)<15%, GDD(720-1000nm)~ -70±30fs2, (GDD-oscillation compensated)
5> 10HR(0°, 630-1000nm)>99.8% + R(0°, 510-550nm)<10%, GVD(720-1020nm)~ -70±30fs2
34HR(0°, 640-1080+/-8nm)>99.9% + R(0°, 490-540+/-5nm)<5%, GVD~ -200...+100fs2 (GVD optimized for OPO-application)
210HR(0°, 650-860±7nm)>99.9%, GVD(770-795nm)~-550±75fs2
35HR(0°, 650-900±5nm)>99.9%, GVD(700-900nm)~ -100±30fs2 , (GVD-oszillation compensated)
1> 10HR(0°, 650-900±8nm)>99.9%, GVD~-150fs2....0fs2, with smoothed GD
20> 10HR(0°, 650-1100nm)>99.8%, GD optimized
12HR(0°, 650-1070±8nm)>99.9%, GVD(740-980nm)=-70±30fs2
18> 10HR(0°,650-1100nm)>99.8% + R(0°,488-532nm)<5%
4> 10HR(0°,660-980nm±10nm)>99.7% + R(0°,500-550nm)<5%, GVD~-50±20fs2(730-1000±10nm)
12HR(0°, 660-1050nm)>99.9%, High Power optimized (780-850nm)
9> 10booth mirrors HR(0°, 660-1060nm)>99.8%, GDD(730-970nm)= -70±20fs2, (GDD-Oszillation compensated)
2> 10HR(0°, 660-1100±9nm)>99.8%, GVD(740-1010nm)=-70±20fs2
8> 10HR(0°,660-1130nm±10nm)>99.9%, GVD(780-1010nm)~ -120fs2...+40fs2
39HR(0°, 660-1130+/-8nm)>99.9% + R(0°, 510-550+/-5nm)<5%, GVD~ -200...0fs2 (GVD optimized for OPO-application)
52HR(0°,660-1150nm)>99.9% + R(0°,480-560nm)<5%
9> 10HR(0°,670-1000nm)>99.8%, GVD(700-970nm)=-60±20fs2
17HR(0-5°, 670-1020nm)>99.8%, GDD Osz. compens. (0-5°, 730-850nm) ~-500...+750±100fs2, TOD opt.
19HR(0-5°, 670-1040nm)>99.8%, GDD Osz. compens. (0-5°, 770-990nm) ~-120±30fs2
16HR(0°, 680-890±7nm)>99.8%, GVD (0°, 720-880nm)~+100±30fs2
18HR(0°, 680-890±7nm)>99.8%, GVD (0°, 720-880nm)~+80±30fs2
44HR(0°,680-1100nm)>99.8%, not GVD optimized
9> 10HR(0°,680-1100nm)>99.8% + HT(0°,488-532nm)>90%
40HR(0°,690-820nm)>99.9% + R(0°,488-532nm)<5%, GVD<20fs2
15> 10HR(0°,690-880nm±10nm )>99.9% + R(0°,500-550nm)<2%, GVD<20fs2 (710-870±10nm)
11> 10HR(0°, 690-890±5nm)>99.9% + R(0°, 532nm)<2%, GDD(0°, 700-880±10nm)~0fs2
57HR(0°,690-960nm±10nm)>99.9% + R(0°,500-540nm)<5%, GDD~0fs2(690-880±10nm)
12HR(0°,700-840nm)>99.95%, GVD<20fs2
7> 10HR(0°, 700-850nm)>99.8% + HT(0°, 514-532nm)>95%, GVD~0fs2
7> 10HR(0°,700-870±7nm)>99.9%, |GDD|<40fs2
7> 10HR(0°, 700-870±8nm)>99.9%, GDD=-40±15fs2(725-880nm)
21HR(0°, 700-880±8nm)>99.9% + R(0°, 450-550nm)<2%, GVD<20fs2 (710-870±8nm)
27HRr(0-45°,700-890±10nm)>99.9% (not GVD-optimized)
20HR(0°,700-900nm)>99.8%, GDD<40fs2
23HR(0°,700-900nm)>99.9%, GVD(700-900)~ -50±20fs2 (GVD-oscillation compensated)
1> 10HR(0°, 700-900nm)>99.9%, GVD(780-805nm)~-550±50fs2
16HR(0°,700-900nm)>99.9%, GVD<40fs2
25> 10HR(0°,700-900nm)>99.8% + R(0°,532nm)<2%, GDD~0fs2
2> 10HR(0°, 700-950±5nm)>99.9% + R(0°, 505-535nm)<10%, GVD~ -50±20fs2(680-940±5nm)
30HR(0°, 700-970nm)>99.85%, GDD(700-950nm)~ -60....-30fs2 (GDD - oscillation compensated and TOD optimized)
1> 10HR(0°,700-980nm)>99.9% + R(0°,510-532nm)<10%, IGDD(R,0°,710-870nm)I<30fs2
12> 10HR(0°,700-1000nm)>99.9%, GDD-R(0°,700-1000nm)=-50±50fs2


?皮秒激光鏡片

Different
Articles
Articles
in Stock
Coating
1> 10HR(0°,343nm)>99.7% + R(0°,515+1030nm)<1% (ps-pulses)
32HR(0°, 515nm)>99.9% (high power)
18HR(0°,532nm)>99.9% (High Power)
8> 10HR(0°,750-850nm)>99.9% (high power for ps-pulses)
7> 10HR(0°,970-1090nm)>99.9% (High Power for ps-Pulses)
13> 10HRr(0-20°,970-1090nm)>99.95% (high power)
10HR(0°, 980-1090nm)>99.98% (High Power für ps-Pulse)
10HR(0°,990-1070nm)>99.98% (High Power für ps-Pulse)
4> 10HR(0-10°, 1030±30nm)>99.98% (High Power ps-Pulse)
22> 10HR(0°,1000-1100nm)>99.98% (High Power für ps-Pulse)
12HR(0°,1030nm)>99.98% (High Power)
68> 10HR(0°,1030±30nm)>99.98% (High Power for ps-Pulses)
1> 10HRr(0-20°,970-1090nm)>99.95% (high power for ps-pulses)
12HR(0°,1030-1064nm)>99.9% (High Power)
10HR(0°,1064nm)>99.98% (High Power für ps-Pulse)
28HRr(22.5°,1010-1070nm)>99.9% (High Power)
12Ag + Multilayer, HRr(0-45°, 1020-1040nm)>99.9%
10HRr(45°,213nm)>95% (HRs(45°,208-218nm)>97%, HRp(45°,213nm)>93%) (fluoridisch)
1> 10HRs(45°,343nm)>99.9% + HRp(45°,343nm)>99.7%
28HRp(45°, 355nm)>99.0% + Rs(45°, 532nm)<3% + Rp(45°, 1064nm)<2%
3> 10HRp(45°, 355nm)>99.5% + Rs(45°, 532nm)<5% + Rp(45°, 1064nm)<5%
26HRr(45°, 515nm)>99.9% (High Power for ps-pulses), T>0.05%
12HRs,p(45°,515nm)>99.9% (High Power für ps)
11HRs,p(45°,515nm)>99.9% + Rs,p(45°,1030nm)<2%
110HRs(45°,515nm)>99.95% + Rp(45°,1030nm)<1% (high power)
2> 10HRr(45°,532nm)>99.9% (High Power for ps)
5> 10HRr(45°,1030±40nm)>99.9% (High Power for ps-Pulses)
2> 10HRr(45°, 1030±40nm)>99.9% (High Power für ps-Pulse), T>0.05% with HRr~99.95% => |Rs-Rp|~0.1%
30HRr(45°,990-1070nm)>99.98% (High Power für ps-Pulse)
10HRr(45°,1030±40nm)>99.9% + PRr(633-655nm)>80% (High Power für ps-Pulse)
20HRr(45°, 1030nm)>99.9% (High Power für ps-Pulse), T>0.05%
22HRr(45°, 1030nm)>99.98% (High Power for ps-pulses)
13HRr(45°, 1030nm + 515nm)>99.9% (high power)
2> 10TFP(45°, 1030nm) Rs>99.9% Rp<2%
10TFP(55°, 1030nm), Rs>99.9%, Rp<1%
10PR(0°,1030nm)=75±2%
10PR(0°,1030nm)=77±2%
11PR(0°,1030nm)=79±2%
12PR(0°,1030nm)=81±2%
15PR(0°,1030nm)=83±2%
11PR(0°,1030nm)=85±2%
10PR(0°,1030nm)=87±2%


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23HR(0-10°,370-1480nm)>99.8%
1> 10HRs,p(45°, 400-700nm)>99.8% + HR(0°,420-800nm)>99.8% with HTr(0-45°, 950-2000nm, average)>70%
10HRs,p(0-45°, 420-670nm)>99.9%
2> 10HRr(0°, 430-880nm)>99.0% + R(0°, 900-3000nm)<20% + HRr(45°, 440-740nm)>99.0% + Rr(45°, 830-3000nm)<20%
19HR(0°-10°,450-1600nm)>99.5% + HR(0°-10°,1600-2150nm)>99%
10HR(0-10°,460-1360nm)>99.8%
19HRs,p(45°, 400-700nm)>99.8%

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83Al + protection layer, 157nm opt.
18Al + SiO2-protection, R(0°, 248 + 352nm)>85%
38> 10Al + SiO2-Schutzschicht, Rr(0-45°, 266/405/810nm)>85%
10> 10Al enhanced, 220 - 280nm opt.
9> 10Al+SiO2-protection, 266 + 405nm opt.
1> 10Ag + multilayer HRr(0-45°,500-550nm)>99%, GVD<10fs2
1> 10Ag + multilayer HRr(0-45°,525-575nm)>99%, GVD<10fs2
20> 10Ag + multilayer HRr(0°,550-1250nm)>98%, |GDD(0°,550-1250nm)|<10fs2
24Ag + Multilayer HR(0°,570-1000nm)>98%, |GDD|<10fs2
4> 10Ag + multilayer HR(0°,580-1040nm)>98%, |GDD|<10fs2
152> 10Ag + protection layer, fs-opt. 600-1000nm
30> 10Ag + protection layer, fs-opt. 600-2000nm
4> 10Ag + multilayer HR(0°, 650-900nm)>98.5%, GVD<10fs2
14Ag + Multilayer HR(0°, 650-1050nm)>98.0%, GVD<10fs2
26> 10Ag + Multilayer HR(0°,700-900nm)>99%, GVD<10fs2
36> 10Ag + Multilayer HR(0°, 700-1000nm)>98.5%, |GDD-R(0°, 700-1000nm)|<10fs2
32Ag + multilayer HR(0°,720-870nm)>99.5%, GVD optimized
17Ag + enhanced 2 HR(0°, 720-1000nm)>99%, GVD(0°,720-1000nm)<30fs2
2> 10Ag + multilayer HRs+p(0-45°,730-990nm)>98%, GVD<10fs2
4> 10Au+protection layer
15> 10bare gold
1> 10Ag + Multilayer HRp(0-45°,850-1300nm)>98%, GVD<10fs2
8> 10Ag + protection layer, fs-opt. 1 - 10μm
8> 10Ag + Multilayer, HR(0°,1064nm)>99.5%
10Ag +protection layer opt.2000nm HR(0°,1700-2400)>98.5%, GVD(0°,1700-2400nm)<30fs2
2> 10Ag +enhanced HR(0°, 1700-2400nm)>99%, GVD(0°,1700-2400nm)<30fs2
12Ag + Multilayer HRs,p(45°,400-700nm)>98%, /GDDs,p(45°,400-700nm)/<60fs2
2> 10Ag + Multilayer HRr(45°,515nm+1030nm)>99.9% + Rr(45°, 630-660nm)>93%
1> 10Ag+multilayer HRr(45°, 532 + 1064nm)>99.5% + Rr(45°, 630-660nm)>90%
11Ag + Multilayer HRp(45°,570-1000nm)>97%, |GDD|<10fs2
10Ag + multilayer HRs(45°,680-940nm)>99.5%, |GDD|<10fs2
3> 10Ag + multilayer HRr(45°,700-900nm)>99%, GVD<10fs2
1> 10Ag + multilayer HRs+p(45°,700-980nm)>97%, GVD<10fs2
19Ag + Multilayer HRr(45°, 700-900nm)>98%, |GDD-Rr(45°, 700-900nm)|<20fs2, Tr(45°, 800nm)=(0.03±0.02)%
34Ag + Multilayer HRs,p(45°,700-1000nm)>98%, GVD<10fs2
6> 10Ag + enhanced fs-optimiert HRs(45°,710-1060nm)>99% + HRp(45°,710-1060nm)>98%, |GDD-Rs,p|(45°,710-1060nm)|<20fs2
27Ag + Multilayer HRs+p(45°,750-850nm)>99.5%, GDD optimiert
30Ag-enhanced: HRr(45°,798-990nm)>99% + HRr(45°,808+940+980nm)>99.5%
22Ag + multilayer HRr(45°,800-1150nm)>98%, GVD<20fs2
11Ag + Multilayer HRr(45°,808-1064nm)>99% + Rr(45°, 1000-2000nm)>93%
11Ag + Multilayer HRr(45°,970-1110nm)>99.8%, GVD<20fs2
25Ag + Multilayer HRr(45°,1030nm)>99.98% + HRr(45°,1070nm)>99.95% + Rr(45°,400-600nm)>60% + Rr(45°,600-3200nm)>90%
10Ag + Multilayer, HRr(45°,1050-1500nm)>99%
12Ag + multilayer HRr(45°,1050-1550nm)>98%, GVD<30fs2
18Ag + multilayer, opt. HRr(45-60°,1064nm)>99.9%

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4> 10HR(0°,266nm)>99.7%, T(0°, 266nm)~0.025±0.01% (Low Loss)
12HR(0°,315nm)~99.6% (Low Loss)
24HR(0°,325-360nm)>99.9%, T(0°,325-360nm)~0.004...0.015% (Low Loss)
2> 10HR(0°,330nm)>99.8%, T(0°,330nm)~0.002% (Low Loss)
4> 10HR(0°,330nm)>99.8%, T(0°,330nm)~0.01-0.015% (Low Loss)
2> 10PR(0°, 330nm)~99.95±0.02%, T(0°, 330nm)~0.03±0.02%, Low Loss
13HR(0°,335-350nm)>99.8%, T(0°.342nm)~0.002% (Low Loss)
3> 10HR(0°,340-360nm)>99.9%, T(0°, 340-360nm)~0.01% (Low Loss)
30HR(0°,340-360±3nm)>99.9%, T(at 355nm)~0.01-0.015% (Low Loss)
4> 10HR(0°,340-370±4nm)>99.9%, T(measurement)~0.01-0.02% (Low Loss)
11HR(0°,350-365nm)>99.9% (Low Loss)
27HR(0°,360nm)>99.85%, T(0°,360nm)~0.002% (Low Loss)
3> 10HR(0°,360-395nm)>99.95%, T(0°,375nm)~0.006% (Low Loss)
38PR(0°, 365nm)~99.95±0.02%, T(0°, 365nm)~0.04±0.02%, low loss
48HR(0°,370-395±3nm)>99.96%, T(measurement)~0.01-0.15% (Low Loss)
3> 10HR(0°,380-420nm)>99.95%, T(0°, 380-420nm)~0.006...0.015% (Low Loss)
3> 10HR(0°,380-420±4nm)>99.95%, T(measurement)~0.01-0.02% (Low Loss)
10HR(0°,387nm)>99.92±0.02% (Low Loss)
2> 10HR(0°,390nm)>99.9%, T(0°,390nm)~0.002% (Low Loss)
2> 10HR(0°, 390-440m)>99.95%, T~0.007...0.03%, Low Loss
21HR(0°,400-405nm)~99.975% + HR(0°,633nm)~95...99%, T(0°,400-405nm)~0.01% (Low Loss)
11HR(0°,405nm)>99.98%, T(0°,405nm)~0.005%, Low Loss
11HR(0°,410nm)=99.95±0.02%, T at 410nm~0.012% (Low Loss)
10HR(0°,410nm)>99.9% (Low Loss)
16HR(0°,420-450nm)>99.98%, T(0°, 420-450nm)~0.004...0.01% (Low Loss)
20HR(0°, 430nm)>99.98%, T(0°,430nm)~0.002%, Low Loss
28HR(0°, 430-490nm)>99.9%, GDD<20fs2
10HR(0°,432nm)=99.95±0.02%, T~0.012% (Low Loss)
10HR(0°, 440nm)>99.98%, T(0°,440nm)~0.01% (Low Loss)
10HR(0°,445nm)>99.98%, T(0°,445nm)~0.01%, Low Loss
2> 10PR(0°,445nm)~99.99±0.005%, T(0°,445nm)~0.01±0.005%, Low Loss
10HR(0°,455nm)>99.985% T(0°,455nm)~0.007% (Low Loss)
23HR(0°,455nm)>99.985% T(0°,455nm)~0.002% (Low Loss)
30HR(0°,460nm)>99.95%, T~0.02% (Low Loss)
22HR(0°, 480nm)>99.98%, T(0°,480nm)~0.002%, Low Loss
25HR(0°, 480nm)>99.99%, T(0°,480nm)~0.0002%, Low Loss
20HR(0°,511nm)>99.97% (Low Loss)
11HR(0°,520-560nm)>99.98%, T(0°,540nm)~0.003...0.005% (Low Loss)
14HR(0°, 525-575+/-5nm)>99.98% (Low Loss) T~0.002%
10HR(0°,532nm)>99.98% (Low Loss) T~0.01%
87HR(0°,532nm)>99.99% (Low Loss) T~0.001%
22HR(0°, 540nm)>99.98%, T(0°,540nm)~0.01% (Low Loss)
10HR(0°,545-595nm)>99.97%, T(0°, 570nm)~0.015% (Low Loss)
10HR(0°,560-680nm)>99.9% + HR(0°,570-670nm)>99.99%, T(0°,620nm)~0.001% (Low Loss)
2> 10HR(0°,570nm)>99.97±0.02%,T at 570nm~0.015% (Low Loss)
12HR(0°,570-635±5nm)>99.97% T~0.001%(Low Loss)
20HR(0°,585-605nm)>99.99% T(0°,595nm)~0.001% (Low Loss)
10HR(0°,610-655±5nm)>99.98%, T(measurement)~0.002% (Low Loss)
44HR(0°,620nm)=99.98±0.02%, T at 620nm~0.01% (Low Loss)
30HR(0°,620-680nm)>99.97% T~0.01%(Low Loss)
10HR(0°,620-680nm)>99.985% T(0°,650nm)~0.001% (Low Loss)
27HR(0°,620-680nm)>99.99%, T(0°,650nm)~0.005...0.01% (Low Loss)
6> 10HR(0°,620-680nm)>99.99% T~0.002% (Low Loss)
24HR(0°,625nm)>99.99% , T(0°,625nm)~0.001% (Low Loss)
41HR(0°,630nm)=99.93±0.02%, T~0.07% (Low Loss)
12PR(0°,630nm)~99.98%, T(0°,630nm)~0.01% (Low Loss)
5> 10HR(0°,633nm)=99.9% T(0°,633nm)>0.08%
11HR(0°, 633nm)=99.96±0.015% + HR(0°,825+863nm)>99.99%, T(0°,633nm)~0.002% + T(0°,825+863nm)~0.001% Low Loss
11HR(0°,660nm)>99.99%, T(0°,660nm)~0.001% (Low Loss)
30PR(0°, 300-450nm)~99.6±0.3%, T(0°, 300-450nm)~0.3±0.2%, low loss
10HR(0°,680-690nm)>99.94%, low loss, T(0°,685nm)~0.05%
11HR(0°,685nm)>99.99%, low loss, T(0°,685nm)~0.002%
10HR(0°,690-830nm)>99.98% (Low Loss)
10HR(0°,700-800nm)>99.98% (Low Loss)
25HR(0°, 727-733nm)>99.99%, T(0°, 730nm)~0.002%, low loss
10HR(0°,730-780±8nm)=99.97±0.02%, T~0.01% (Low Loss)
10HR(0°,740-870±5nm)>99.95% (Low Loss), T(0°,805nm)~0.002%
69HR(0°,740-870nm)>99.98% (Low Loss)
10HR(0°,763nm)>99.98%, T~0.015 (Low Loss)
12HR(0°,777nm)>99.98% (Low Loss)
3> 10HR(0°,780nm)>99.97% (Low Loss)
10HR(0°,780nm)>99.97%, T~0.02% (Low Loss)
51HR(0°,780-850nm)>99.99% , T(0°, 815nm)~0.001% (Low Loss)
31HR(0°,790nm)>99.97% (Low Loss)
20HR(0°, 790-875±8nm)>99.97%, low Loss
22HR(0°, 800nm)>99.99% ,T (0°, 800nm)~0.001% (low loss)
10HR(0°,800-835nm)>99.97% T~0.01%(Low Loss)
20HR(0°,830-870nm)=99.9%, T~0.1%
30HR(0°, 850+/-10nm)>99.97%, T at 850nm~0.01% (Low Loss)
10HR(0°,860-970nm±10nm)>99.97% T(920nm)~0.007±%(Low Loss)
10HR(0°,920-950nm)>99.98% (Low Loss)
52HR(0°,910-1000nm)>99.98% T ~0.007% (Low Loss)
4> 10HR(0°,970-1120nm)>99.98% (Low Loss)
8> 10HR(0°,990-1085nm)>99.98%, |GVD(990-1085nm)|<20fs2 (Low Loss)
33HR(0°, 990-1085nm)>99.99%, |GDD(0°, 990-1085nm)|<20fs2 , T(0°, 1038nm)~0.001% (Low Loss)
10HR(0°,1000-1100nm)~99.9% ,T(0°,1050nm)~0.1% (low loss)
33HR(0°, 1000-1110±10nm)>99.98% (Low Loss)
410HR(0-20°,1020-1070nm)>99.98% (Low Loss), transmission not specified
33HR(0°, 1030-1064nm)~99.994% (Low Loss) T~0.005% + PR~95...98%(0°, 600-650nm)
14> 10HR(0°,1064nm)>99.98% (Low Loss)
10HR(0°,1064nm)>99.99% , T(0°,1064nm)~0.002% (Low Loss)
27HRs,p(0-45°, 1064nm)>99.95%, Low Loss (transmission not specified)
26HR(0°,1064nm)>99.992% , T(0°,1064nm)~0.001% (Low Loss)
11HR(0°,1064nm)>99.985% + R(0°, 532nm)<2% (Low Loss)
10HR(0°,1130-1190nm)>99.98% ,T (0°,1160nm)~0.01% (low loss)
11HR(0°,1180-1320nm)~99.9% ,T(0°,1250nm)~0.1% (low loss)
21HR(0°,1240-1450±20nm)~99.99% ,T~0.001...0.002% (low loss)
10HR(0°,1240-1650)>99.96% (low loss), transmission not specified
4> 10HR(0°, 1250-1450±10nm)~99.99% (Low Loss), T~0.001....0.002%
20HR(0°, 1270nm)~99.995% + PR(0°, 633nm)~95%, T(0°,1270nm)~0.0025% (low loss)
210HR(0°,1280nm)>99.99% (Low Loss), T(0°,1280nm)~0.001%
3> 10HR(0°, 1300-1400±10nm)>99.98% (Low Loss), T~0.003%
10HR(0°,1310nm)>99.97% (Low Loss)
3> 10HR(0°,1325nm)>99.99% (Low Loss)
14HR(0°,1330-1450nm)~99.99% ,T~0.001...0.002% (low loss)
23HR(0°,1360-1400nm)>99.99% (Low Loss), T~5...10ppm
23HR(0°,1360-1550±10nm)>99.97% T~0.02% (Low Loss)
7> 10HR(0°,1390nm)>99.95% (low loss)
15HR(0°,1392nm)>99.99% + R(0°,633nm)~95...99%, T(0°,1392nm)~0.002% (low loss)
14HR(0°,1390)>99.99% (Low Loss), T at 1390nm~0.005...0.008%
4> 10HR(0°,1392nm)>99.98% (Low Loss)
2> 10HR(0°, 1392nm)>99.99%, (typical ~99.997%) T(0°, 1392nm)~0.0025% (low loss)
11HR(0°,1430-1570nm)>99.99%, T(0°,1500nm)~0.001% (Low Loss)
36HR(0°,1434nm)>99.99% ,T (0°,1434nm)~0.002% (low loss)
20HR(0°,1450-1600nm)>99.975% (Low Loss),T at 1530nm~0,012%
32HR(0°,1450-1670±20nm)~99.99% ,T~0.001...0.002% (low loss)
20HR(0°,1480-1630nm)>99.98% (Low Loss), T(1510nm)~0.005%
33HR(0°,1480-1630nm)>99.99% (Low Loss), T(1510nm)~0.002%
10HR(0°,1500-1700nm)>99.99% (Low Loss), T(0°,1600nm)~0.0005%
10HR(0°,1510nm)>99.98% (Low Loss), T at 1500nm~0.012%
10HR(0°,1520-1575nm)>99.99% , T~0.0006...0.001% (Low Loss)
17HR(0°,1520-1670nm)>99.97% (Low Loss), T at (1600nm)~0.005...0.007%
10HR(0°,1520-1670nm)>99.99% (Low Loss), T at (1600nm)~0.001%
20HR(0°,1520-1670nm)>99.99% , T(0°, 1595nm)~0.001% (Low Loss)
7> 10HR(0°,1530-1570nm)>99.97% (Low Loss),T ~0.02%
15HR(0°,1530-1800nm)>99.9%
3> 10HR(0°,1570nm)>99.96% (Low Loss)
11HR(0°,1570nm)>99.98% (Low Loss), T(0°,1570nm)~0.002%
14HR(0°,1577+1596nm)>99.99%, T(0°,1577+1596nm)~0.002%
10HR(0°, 1590nm)~99.995% + PR(0°, 633nm)~95%, T(0°,1590nm)~0.0025% (low loss)
38HR(0°,1600-1700nm)>99.99% (Low Loss), T(0°,1650nm)~0.002%
12HR(0°,1620-1690nm)>99.95% T~0.05% (Low Loss)
16HR(0°,1600-1700nm)>99.97%, T(0°, 1650)~0.02% (Low Loss)
16HR(0°,1640-1700nm)>99.97%, T~0.02% (Low Loss)
10HR(0°,1650nm)>99.99% (Low Loss), T(0°,1650nm)~0.002%
6> 10HR(0°,1680-1860nm)>99.97% (Low Loss), T at (1800nm)~0.005%
17HR(0°,1730-1840nm)>99.99%, T(0°,1792)~0.001...0.002% (low loss)
10HR(0°,1742nm)>99.99%, T(0°,1742nm)~0.001...0.002% (low loss)
22HR(0°,1760nm)>99.99% (low loss), T~0.001...0.002%
10HR(0°,1870-1880nm)>99.97% (Low Loss), T at 1875nm ~0.005%
10HR(0°,2022-2222nm)>99.99% ,T (0°,2122nm)~0.002% (low loss)
12HR(0°,2022-2222nm)>99.99% ,T (0°,2122nm)~0.004% (low loss)
3> 10HR(0°,2050nm)>99.98% (T~0.002%)
110HR(0°,2050nm)>99.98% (Low Loss), T(2050nm)~0.002%
3> 10HR(0°,2300nm)>99.98% (Low Loss), T(2300nm)~0.001...0.002%
4> 10HR(0°,2300nm)>99.99% (Low Loss), T(0°, 2300nm)~0.001%
12HR(0°,2600nm)>99.9% (Low Loss), T(0°, 2600nm)~0.01%
14HR(0°, 2800nm)>99.7% ,T (0°, 2800nm)~0.002% (low loss)
47HR(0°,3000-3500nm)>99.7% (low loss)
10HR(0°,3800-4000nm)>99.9% (low loss), T(0°, 3900nm)~0.02%
26HRr(45°,633nm)>99.98% Tr~0.001% (Low Loss)
18HRs(45°, 1064nm)>99.99%, T~0.002% (low loss)
28PR(0°, 308nm)=99.9±0.05% , T(0°, 308nm)=0.03±0.02% (low loss)
12PR(0°,370nm)=97.5...98.0%, T(0°,370nm)~2% (Low Loss)
3> 10PR(0°, 660nm)~99.95±0.02%, T(0°, 660nm)~0.04±0.02%, low loss
10PR(0°, 740nm)=99.9±0.2% (low loss), T(0°,740nm)~0.08%
10PR(0°, 1008nm)=99.9±0.2% (low loss), T(0°,1008nm)~0.08%
32PR(0°,1112nm)=99.985±0.005%, T(0°,1112nm)~0.015% (low loss)
10PRs(45°, 729nm)=99.8±0.05%, Ts(45°,729nm)~0.2% (low loss)

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