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德國LAYERTEC激光鏡片飛秒激光反射鏡

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公司名稱 成都科盛達光電技術有限公司
品牌
型號
產地德國
廠商性質 經銷商
更新時間 2018/5/10 17:01:23
訪問次數 861

產品標簽

LAYERTEC激光鏡片飛秒激光反射鏡 LAYERTEC高反鏡 LAYERTEC激光反射鏡 LAYERTEC低色散鏡

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公司介紹 主營產品

成都科盛達光電技術有限公司是一家致力于光電子學領域的設備研發、代理與系統集成的綜合業務提供商。業務覆蓋國內的各大高校，研究所，以及企事業單位。我們具有專業的背景，*的服務和豐富的經驗，不僅提供設備，同時針對客戶的不同需求，提供專業的解決方案,主要產品有激光器，激光功率計能量計，光源，光電探測器，紅外元件，THz器件，超快光學元件及系統，光快門等。成都科盛達光電-專注光電產品與服務。

展開

激光器，激光功率計能量計，光學鏡片，石墨烯，CCD相機，THz元件，

詳細信息 在線詢價

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

連續及納秒激光元件

■ 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,標準帶寬是200nm左右(中心波長在800nm左右)，更寬的可以達到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%

負色散鏡:

LAYTERTEC的負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來達到補償效果，反射次數可達1020次。

?納秒激光鏡片

Different Articles	Articles in Stock	Coating
1	0	HR(0°,157nm)>=92%
2	2	HR(0°,193nm)>96%
1	0	HR(9°-12°,193nm)>96%
1	4	HRr(0°,260nm)>99.5%
1	0	HRr(0°,266nm)>99.5%
1	3	HR(0°,355nm)>99.9%
1	5	HR(0°,355nm)>99.85%
1	4	HRs,p(8.5°, 355nm)>99.75% + Rs,p(8.5°, 532nm)<0.5% + Rs,p(8.5°, 1064nm)<5% (high power)
1	> 10	HRs,p(0-20°, 355nm)>99% + HRs,p(0-20°, 532nm)>99% + Rs,p(0-20°, 1064nm)<1%
1	3	HR (0°, 515-532nm) >99,9% + R (0° , 1030-1064nm) <1%
1	0	HR(0-10°, 532nm)>99.8% + R(0-10°, 1064nm)<1% (High Power)
1	7	HR(0-10°,532nm)>99.9% + R(0-10°,1064nm)<0.5% (high power)
2	9	HR(0°, 532nm)>99.95% + R(0°, 1064nm)<0.25%, T(0°, 532nm)~0.015%
1	0	HRs,p(5-15°, 532nm)>99.9% + Rs,p(5-15°, 1064nm)<1% (high power)
2	1	HR(0° + 18°, 655-755nm)>99.9% + R(0° + 18°, 532nm)<2%, \|GDD-R(0° + 18°, 655-755nm)\|<40fs2
4	10	HR(0°,1010-1060nm)>99.9%
1	0	HR(0°, 1020-1070nm)>99.9% (High Power)
2	0	HR(0°,1030nm)>99.98% (High Power)
3	> 10	HR(0-10°,1030nm)>99.99% (High Power)
13	> 10	HR(0-10°,1030nm)>99.98% + R(0-10°,630-650nm)>50% (high ns-laser power)
1	1	HRr(25°-29°,157nm)>92%
1	0	HRr(30°,193nm)>96%
1	9	HRs(33°,1030nm)>99.98% (High Power ns-laser pulses)
7	1	HRr(45°,157nm)>89%
1	0	HR(45°,162nm)>90%
5	0	HRr(45°,193nm)>95%
2	9	HRs(45°,213nm)>97% + Rp(45°,266nm)<2% + Rs(45°,532nm)<10% + Rp(45°,1064nm)<2%
1	2	HRr(45°, 248nm)>98% (fluoridic)
3	0	HRr(45°,248nm)>99%
1	0	HRr(45°,248nm)>99% + Rr(45°,355+848nm)<10%
1	9	HRs(45°,266nm)>99.5% + Rp(45°,532+1064nm)<2% + Rs(45°,532+1064nm)<10%
2	10	HRr(45°, 308nm)>99.5%
1	0	HRr(45°, 308nm)>99.8%
1	0	HRs(45°,343nm)>99.9% + Rp(45°,515nm)<0.2% + Rs(45°,1030nm)<0.2%
1	0	HRr(45°,351nm)>99.5%
1	1	HRr(45°, 355nm)>99.5%
1	5	HRr(45°, 355nm + 532nm)>99.5%
1	4	TFP(45°,355nm) Rs>99.5% Rp<2%
1	6	HRp(45°, 355nm)>99.8% + Rs(45°, 532nm)<1% + Rp(45°, 1064nm)<1%
1	10	HRs,p(45°, 532nm)>99.8% + Rs,p(45°, 1064nm)<2% (high power)
1	0	HRs,p(45°,1030nm)>99.96% (Zero Phase Shift)
1	0	HRr(45°,1030nm)>99.98% (High Power)
1	0	HRs(45°, 1030-1064nm)>99.9% (High Power)
1	1	HRr(45°, 1064nm)>99.9%
1	> 10	HRr(45°, 1064nm + 532nm)>99.8% + HRr(45°,355nm)>99.4%
1	3	HRr(45°,1064nm)>99.9% + Rr(45°,532nm)<10%
1	0	HRr(45°,1064nm)>99.9%+HTr(45°, 532+808nm)>90%
1	> 10	HRs(22.5°,343nm)>99.8% + Rp(22.5°,515nm)<1% + Rs(22.5°,1030nm)<1%
1	> 10	TFP(56°, 355nm) Rs>99.5% Rp<2%
1	2	TFP(56°(±3°), 532nm) Rs>99.8% Rp<2%, (±3°) angle adjustment
1	2	PR(0°, 650-720nm)=80±5% + R(0°, 740-950nm)<10% (analogous F0305017)
1	10	PRr(45°,193nm)=30+/-3%
1	0	PRr(45°,248nm)=50±3%
1	0	PRs,p(45°,532nm)=50±5%, \|Rs-Rp\|<5%
1	0	PRp(45°, 1030-1064nm)=30.0±2%
1	3	PRs(45°,1047-1064nm)=95.00±0.75%
1	0	VAr(0-45°,157nm) T=80-10%
1	2	VAr(0-45°,193nm) T=88-2%
3	6	AR(0°,193nm)<0.25%
1	2	AR(0°,248nm)<0.25%
1	0	AR(0°,355nm)<0.25%
1	0	AR(0°, 808+1064nm)<0.2%
1	0	AR(0°,940-1060nm)<0.2%
1	2	AR(0°,1010-1060nm)<0.25%
1	2	AR(0°,1030nm)<0.2%
1	0	AR(0°,1030-1064nm)<0.15%
11	> 10	AR(0°,1030-1080nm)<0.25%
1	0	ARr(45°,266nm)<0.6%

?飛秒激光鏡片

Different Articles	Articles in Stock	Coating
3	1	HR(0°,158.5nm)>92% + R(0°,266+800nm)<10%
2	0	HR(0°,200nm)>96% (fluoridic)
1	4	HR(0°, 220nm)~85% + R(0°, 350-800nm)<10%, band width ~35nm with R~80...90%, \|GDD-R(0°, 220)\| <20fs2,
2	0	HR(0°, 240-330±3nm)>95% + R(0°, 600-920nm)<5%, GDD opt.
1	> 10	HR(0°, 250-400±5nm)>95.0%, GDD( 0°, 265-385nm)~ -10±10fs2, (GDD-oszillation compensated)
3	> 10	HR(0°,267nm)>99% + HR(0°,400nm)>99.3% + HR(0°,800nm)>99.7%, GDD-optimiert
1	1	HR(0°,267nm)>99.5% + R(0°,400+800nm)<5%, GVD<20fs2
2	> 10	HR(0°, 315-450±5nm)>99.8%, GDD(330-440nm)~ -25±10fs2, (GDD-oszillation compensated)
1	5	HR(0°, 310-460±5nm)>99.8%, GVD(350-470nm)~-30....+20fs2, (GVD-Oscillation compensated)
1	> 10	HR(0°, 310-480nm)>99.7%, GDD(340-490nm)~ -25±50fs2
2	4	HR(0°,340-390nm)>99.8%
2	6	HR(0°,340-450nm)>99.8%, GVD(350-450nm±10nm)~ -25±20fs2
1	> 10	HR(0°,340-460nm)>99.8%,\|GDD(R,0°,340-460nm)\|<40fs2
1	4	HR(0°, 340-540nm)>99.0% + HR(0°, 665-1070nm)>99.7%, GD opt.
1	> 10	HR(0°, 360-410nm)>99.9%, GVD<20fs2
7	> 10	HR(0°,360-435nm±5nm)>99.9% + R(0°,700-950nm)<2%, GVD<20fs2
2	2	1.Mirror:HR(0-8°,360-480nm)>99.5%, 2.Mirror:+10nm, GVD(360-480nm)~-15±15fs2, (GVD-Oscillation compensated)
12	> 10	HR(0°,370-425nm)>99.8%, \|GDD\|<20fs2
1	3	HR(0°, 370-430nm)>99.8%, \|GVD\|<20fs2
2	5	HR(0°, 370-430±5nm)>99.8% + R(0°, 500-1000nm)<2%, \|GDD\|<20fs2
3	4	HR(0°,370-430nm±5nm)>99.9% + R(0°,690-880nm)<2%, \|GDD\|<20fs2
4	10	HR(0°,380-420nm)>99.8%, \|GDD\|<20fs2
4	6	HR(0°,380-440nm±5nm)>99.9% + R(0°,700-900nm)<2%, GVD<20fs2
12	> 10	HR(0°,390-440nm)>99.9%, GVD<20fs2
3	6	HR(0°, 390-440+/-4nm)>99.96%, T~0.005...0.03%, Low Loss
8	> 10	HR(0°, 400+800nm)>99.8%
1	> 10	HR(0°, 409nm)>99.98%, T~0.002%, Low Loss
1	0	HR(0°,410-470nm)>99.9%, GDD<20fs2
5	> 10	HR(0°, 420-810±6nm)>99.7..99.8%, GVD(470-810nm)~ -40fs2±20fs2 , (GVD-Oszillation compensated)
4	7	HR(0°, 440-660nm)>99.85%, GDD-R(0°, 480-660nm)~ -30....-15fs2 (GDD - oscillation compensated and TOD optimized)
1	> 10	HR(0°, 440-720nm)>99.85%, \|GDD-R(0°, 440-720nm)\|<150fs2
4	> 10	HR(0°, 480-640nm)>99.85%, GDD-R(0°, 480-630nm)~ -70....-40±30fs2 (GDD - oscillation compensated and TOD optimized)
3	2	HR(0-15°, 480-960nm)>99.6..99.8%, GVD(510-920nm)~ -40fs2±20fs2 , (GVD-Oszillation kompensiert)
1	0	PR(0°,490-750nm)=86±2%, GDD optimised
1	10	HR(0-10°,500-650nm)>99.9%
1	5	1.mirror:HR(0°,500-950±10nm)>99.6%, 2.mirror:-20nm, GDD(500-930nm)~ -40±20fs2, (GDD-oscillation compensated)
1	0	HR(0°, 510-520nm)>99.9% + PR(0°, 1020-1040nm)=70(±3)%, \|GDD-R(0°, 510-520nm + 1020-1040nm)\|<100fs2
1	0	HR(0°, 510-520nm)>99.9% + PR(0°, 1020-1040nm)=80(±3)%, \|GDD-R(0°, 510-520nm + 1020-1040nm)\|<100fs2
1	0	HR(0°, 510-520nm)>99.9% + PR(0°, 1020-1040nm)=90(±2)%, \|GDD-R(0°, 510-520nm + 1020-1040nm)\|<100fs2
1	0	HR(0°, 510-520nm)>99.9% + PR(0°, 1020-1040nm)=95(±1)%, \|GDD-R(0°, 510-520nm + 1020-1040nm)\|<100fs2
3	0	HR(0°,515+1030nm)>99.8% + R(0°,808nm)<5%
1	0	HR(0°, 532nm)>99.9%
10	> 10	HR(0°, 540-1040±8nm)>99.7%, GVD(570-1040nm)~ -40±20fs2, (GVD-oszillation compensated)
2	3	HR(7°, 500-1000nm)>99.4%, GDD(R,7°,500 -1000nm) designed to compensate 1,5mm FS per double bounce
5	9	HR(0°, 560-1000nm)>99.9%, GVD(620-980nm)~-40fs2±15fs2 , (GVD-oszillation compensated)
1	0	HR(0°, 570-820nm)>99.85%, GDD-R(0°, 570-820nm)~ -35....-15fs2 (GDD - oscillation compensated and TOD optimized)
1	> 10	HR(0°, 570-840±5nm)>99.8%, GD optimized
2	5	HR(0°, 570-1020nm)>99.7%, GDD osc. comp. (0°, 680-980nm)-80fs2...+50fs2, TODopt.
1	5	HR(0°, 570-1030±8nm)>99.8%, GVD(0°, 600-1020nm)~ -50fs2±20fs2 , (GVD-Oszillation kompensiert)
7	> 10	1.Mirror:HR(0°, 580-980±10nm)>=99.9%, 2.Mirror:+20nm, GVD(650-1000nm)~ -50±20fs2, (GVD-Oscillation compensated)
1	5	HR(0°, 580-1020±10nm)>99.8%, GVD-oscillation(700-1000nm)~-100...0fs2
4	10	HR(0°, 580-1030±8nm)>99.9%, GVD(650-1000nm)~ -50fs2±20fs2 , (GVD-oszillation compensated)
4	4	HR(0°, 580-1060±8nm)>99.8%, GDD - oscillation~-120...+40fs2
1	0	HR(0°, 600-700nm±6nm)>99.9%, GVD<20fs2
5	> 10	both mirrors: HR(0°, 600-900nm)>99.8%, GVD (600-900nm)~ -45fs2±20fs2, (GVD-Oscillation compensated, see data sheet)
2	7	HR(0°, 600-930nm)>99.9%, GVD(700-950nm)~ -65±20fs2 (GVD-Oszillation compensated)
2	4	HR(0°, 600-980nm)>99.9%, GVD(700-880nm)~-100fs2...+40fs2
3	> 10	HR(0°, 610-1030nm±10nm)>99.8%
1	> 10	HR(0°, 620-720nm±5nm)>99.9%
1	7	HR(0°, 620-900±8nm)>99.9%, GVD(700-900nm)~ -65±20fs2(GVD oscillation compensated)
1	5	HR(0-12°, 620-1000±7nm)>99.8%, GVD(680-900nm)~-60±20fs2
6	> 10	HR(0°, 620-1000nm)>99.85%, GDD(0°, 700-1000nm)~ -50±20fs2, GDD - osz. compensated
13	> 10	HR(0°, 620-1050nm)>=99.9% + R(0°, 490-540nm)<5%, GDD(680-1020nm)~ -50+/-20fs2, (GDD-oszillation compensated)
2	4	HR(0°,620-1080nm)>99.9% + R(0°,488-532nm)<5%
8	> 10	HR(0°, 620-1120±10nm)>99.9%, GD optimized
10	> 10	HR(0°, 630-980nm)>99.7% + R(0°, 515-545nm)<10%, GDD(700-1020nm)~ -70+/-30fs2, (GDD-oszillation compensated)
8	> 10	HR(0°, 630-1100±8nm)>99.8% + R(0°, 480-540nm)<10%
6	10	HR(0°, 630-1140+/-10nm)>99.85%, GVD~-200fs2....100fs2
1	8	HR(0°, 630-1200nm)>99.8%, \|GDD-R(0°, 650-1150nm)\|<400fs2
14	> 10	HR(0°,640-1000nm)>99.8% + R(0°,(510-545)±5nm)<15%, GDD(720-1000nm)~ -70±30fs2, (GDD-oscillation compensated)
5	> 10	HR(0°, 630-1000nm)>99.8% + R(0°, 510-550nm)<10%, GVD(720-1020nm)~ -70±30fs2
3	4	HR(0°, 640-1080+/-8nm)>99.9% + R(0°, 490-540+/-5nm)<5%, GVD~ -200...+100fs2 (GVD optimized for OPO-application)
2	10	HR(0°, 650-860±7nm)>99.9%, GVD(770-795nm)~-550±75fs2
3	5	HR(0°, 650-900±5nm)>99.9%, GVD(700-900nm)~ -100±30fs2 , (GVD-oszillation compensated)
1	> 10	HR(0°, 650-900±8nm)>99.9%, GVD~-150fs2....0fs2, with smoothed GD
20	> 10	HR(0°, 650-1100nm)>99.8%, GD optimized
1	2	HR(0°, 650-1070±8nm)>99.9%, GVD(740-980nm)=-70±30fs2
18	> 10	HR(0°,650-1100nm)>99.8% + R(0°,488-532nm)<5%
4	> 10	HR(0°,660-980nm±10nm)>99.7% + R(0°,500-550nm)<5%, GVD~-50±20fs2(730-1000±10nm)
1	2	HR(0°, 660-1050nm)>99.9%, High Power optimized (780-850nm)
9	> 10	booth mirrors HR(0°, 660-1060nm)>99.8%, GDD(730-970nm)= -70±20fs2, (GDD-Oszillation compensated)
2	> 10	HR(0°, 660-1100±9nm)>99.8%, GVD(740-1010nm)=-70±20fs2
8	> 10	HR(0°,660-1130nm±10nm)>99.9%, GVD(780-1010nm)~ -120fs2...+40fs2
3	9	HR(0°, 660-1130+/-8nm)>99.9% + R(0°, 510-550+/-5nm)<5%, GVD~ -200...0fs2 (GVD optimized for OPO-application)
5	2	HR(0°,660-1150nm)>99.9% + R(0°,480-560nm)<5%
9	> 10	HR(0°,670-1000nm)>99.8%, GVD(700-970nm)=-60±20fs2
1	7	HR(0-5°, 670-1020nm)>99.8%, GDD Osz. compens. (0-5°, 730-850nm) ~-500...+750±100fs2, TOD opt.
1	9	HR(0-5°, 670-1040nm)>99.8%, GDD Osz. compens. (0-5°, 770-990nm) ~-120±30fs2
1	6	HR(0°, 680-890±7nm)>99.8%, GVD (0°, 720-880nm)~+100±30fs2
1	8	HR(0°, 680-890±7nm)>99.8%, GVD (0°, 720-880nm)~+80±30fs2
4	4	HR(0°,680-1100nm)>99.8%, not GVD optimized
9	> 10	HR(0°,680-1100nm)>99.8% + HT(0°,488-532nm)>90%
4	0	HR(0°,690-820nm)>99.9% + R(0°,488-532nm)<5%, GVD<20fs2
15	> 10	HR(0°,690-880nm±10nm )>99.9% + R(0°,500-550nm)<2%, GVD<20fs2 (710-870±10nm)
11	> 10	HR(0°, 690-890±5nm)>99.9% + R(0°, 532nm)<2%, GDD(0°, 700-880±10nm)~0fs2
5	7	HR(0°,690-960nm±10nm)>99.9% + R(0°,500-540nm)<5%, GDD~0fs2(690-880±10nm)
1	2	HR(0°,700-840nm)>99.95%, GVD<20fs2
7	> 10	HR(0°, 700-850nm)>99.8% + HT(0°, 514-532nm)>95%, GVD~0fs2
7	> 10	HR(0°,700-870±7nm)>99.9%, \|GDD\|<40fs2
7	> 10	HR(0°, 700-870±8nm)>99.9%, GDD=-40±15fs2(725-880nm)
2	1	HR(0°, 700-880±8nm)>99.9% + R(0°, 450-550nm)<2%, GVD<20fs2 (710-870±8nm)
2	7	HRr(0-45°,700-890±10nm)>99.9% (not GVD-optimized)
2	0	HR(0°,700-900nm)>99.8%, GDD<40fs2
2	3	HR(0°,700-900nm)>99.9%, GVD(700-900)~ -50±20fs2 (GVD-oscillation compensated)
1	> 10	HR(0°, 700-900nm)>99.9%, GVD(780-805nm)~-550±50fs2
1	6	HR(0°,700-900nm)>99.9%, GVD<40fs2
25	> 10	HR(0°,700-900nm)>99.8% + R(0°,532nm)<2%, GDD~0fs2
2	> 10	HR(0°, 700-950±5nm)>99.9% + R(0°, 505-535nm)<10%, GVD~ -50±20fs2(680-940±5nm)
3	0	HR(0°, 700-970nm)>99.85%, GDD(700-950nm)~ -60....-30fs2 (GDD - oscillation compensated and TOD optimized)
1	> 10	HR(0°,700-980nm)>99.9% + R(0°,510-532nm)<10%, IGDD(R,0°,710-870nm)I<30fs2
12	> 10	HR(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	> 10	HR(0°,343nm)>99.7% + R(0°,515+1030nm)<1% (ps-pulses)
3	2	HR(0°, 515nm)>99.9% (high power)
1	8	HR(0°,532nm)>99.9% (High Power)
8	> 10	HR(0°,750-850nm)>99.9% (high power for ps-pulses)
7	> 10	HR(0°,970-1090nm)>99.9% (High Power for ps-Pulses)
13	> 10	HRr(0-20°,970-1090nm)>99.95% (high power)
1	0	HR(0°, 980-1090nm)>99.98% (High Power für ps-Pulse)
1	0	HR(0°,990-1070nm)>99.98% (High Power für ps-Pulse)
4	> 10	HR(0-10°, 1030±30nm)>99.98% (High Power ps-Pulse)
22	> 10	HR(0°,1000-1100nm)>99.98% (High Power für ps-Pulse)
1	2	HR(0°,1030nm)>99.98% (High Power)
68	> 10	HR(0°,1030±30nm)>99.98% (High Power for ps-Pulses)
1	> 10	HRr(0-20°,970-1090nm)>99.95% (high power for ps-pulses)
1	2	HR(0°,1030-1064nm)>99.9% (High Power)
1	0	HR(0°,1064nm)>99.98% (High Power für ps-Pulse)
2	8	HRr(22.5°,1010-1070nm)>99.9% (High Power)
1	2	Ag + Multilayer, HRr(0-45°, 1020-1040nm)>99.9%
1	0	HRr(45°,213nm)>95% (HRs(45°,208-218nm)>97%, HRp(45°,213nm)>93%) (fluoridisch)
1	> 10	HRs(45°,343nm)>99.9% + HRp(45°,343nm)>99.7%
2	8	HRp(45°, 355nm)>99.0% + Rs(45°, 532nm)<3% + Rp(45°, 1064nm)<2%
3	> 10	HRp(45°, 355nm)>99.5% + Rs(45°, 532nm)<5% + Rp(45°, 1064nm)<5%
2	6	HRr(45°, 515nm)>99.9% (High Power for ps-pulses), T>0.05%
1	2	HRs,p(45°,515nm)>99.9% (High Power für ps)
1	1	HRs,p(45°,515nm)>99.9% + Rs,p(45°,1030nm)<2%
1	10	HRs(45°,515nm)>99.95% + Rp(45°,1030nm)<1% (high power)
2	> 10	HRr(45°,532nm)>99.9% (High Power for ps)
5	> 10	HRr(45°,1030±40nm)>99.9% (High Power for ps-Pulses)
2	> 10	HRr(45°, 1030±40nm)>99.9% (High Power für ps-Pulse), T>0.05% with HRr~99.95% => \|Rs-Rp\|~0.1%
3	0	HRr(45°,990-1070nm)>99.98% (High Power für ps-Pulse)
1	0	HRr(45°,1030±40nm)>99.9% + PRr(633-655nm)>80% (High Power für ps-Pulse)
2	0	HRr(45°, 1030nm)>99.9% (High Power für ps-Pulse), T>0.05%
2	2	HRr(45°, 1030nm)>99.98% (High Power for ps-pulses)
1	3	HRr(45°, 1030nm + 515nm)>99.9% (high power)
2	> 10	TFP(45°, 1030nm) Rs>99.9% Rp<2%
1	0	TFP(55°, 1030nm), Rs>99.9%, Rp<1%
1	0	PR(0°,1030nm)=75±2%
1	0	PR(0°,1030nm)=77±2%
1	1	PR(0°,1030nm)=79±2%
1	2	PR(0°,1030nm)=81±2%
1	5	PR(0°,1030nm)=83±2%
1	1	PR(0°,1030nm)=85±2%
1	0	PR(0°,1030nm)=87±2%

?多功能寬帶反射鏡

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2	3	HR(0-10°,370-1480nm)>99.8%
1	> 10	HRs,p(45°, 400-700nm)>99.8% + HR(0°,420-800nm)>99.8% with HTr(0-45°, 950-2000nm, average)>70%
1	0	HRs,p(0-45°, 420-670nm)>99.9%
2	> 10	HRr(0°, 430-880nm)>99.0% + R(0°, 900-3000nm)<20% + HRr(45°, 440-740nm)>99.0% + Rr(45°, 830-3000nm)<20%
1	9	HR(0°-10°,450-1600nm)>99.5% + HR(0°-10°,1600-2150nm)>99%
1	0	HR(0-10°,460-1360nm)>99.8%
1	9	HRs,p(45°, 400-700nm)>99.8%

?金屬膜反射鏡

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8	3	Al + protection layer, 157nm opt.
1	8	Al + SiO2-protection, R(0°, 248 + 352nm)>85%
38	> 10	Al + SiO2-Schutzschicht, Rr(0-45°, 266/405/810nm)>85%
10	> 10	Al enhanced, 220 - 280nm opt.
9	> 10	Al+SiO2-protection, 266 + 405nm opt.
1	> 10	Ag + multilayer HRr(0-45°,500-550nm)>99%, GVD<10fs2
1	> 10	Ag + multilayer HRr(0-45°,525-575nm)>99%, GVD<10fs2
20	> 10	Ag + multilayer HRr(0°,550-1250nm)>98%, \|GDD(0°,550-1250nm)\|<10fs2
2	4	Ag + Multilayer HR(0°,570-1000nm)>98%, \|GDD\|<10fs2
4	> 10	Ag + multilayer HR(0°,580-1040nm)>98%, \|GDD\|<10fs2
152	> 10	Ag + protection layer, fs-opt. 600-1000nm
30	> 10	Ag + protection layer, fs-opt. 600-2000nm
4	> 10	Ag + multilayer HR(0°, 650-900nm)>98.5%, GVD<10fs2
1	4	Ag + Multilayer HR(0°, 650-1050nm)>98.0%, GVD<10fs2
26	> 10	Ag + Multilayer HR(0°,700-900nm)>99%, GVD<10fs2
36	> 10	Ag + Multilayer HR(0°, 700-1000nm)>98.5%, \|GDD-R(0°, 700-1000nm)\|<10fs2
3	2	Ag + multilayer HR(0°,720-870nm)>99.5%, GVD optimized
1	7	Ag + enhanced 2 HR(0°, 720-1000nm)>99%, GVD(0°,720-1000nm)<30fs2
2	> 10	Ag + multilayer HRs+p(0-45°,730-990nm)>98%, GVD<10fs2
4	> 10	Au+protection layer
15	> 10	bare gold
1	> 10	Ag + Multilayer HRp(0-45°,850-1300nm)>98%, GVD<10fs2
8	> 10	Ag + protection layer, fs-opt. 1 - 10μm
8	> 10	Ag + Multilayer, HR(0°,1064nm)>99.5%
1	0	Ag +protection layer opt.2000nm HR(0°,1700-2400)>98.5%, GVD(0°,1700-2400nm)<30fs2
2	> 10	Ag +enhanced HR(0°, 1700-2400nm)>99%, GVD(0°,1700-2400nm)<30fs2
1	2	Ag + Multilayer HRs,p(45°,400-700nm)>98%, /GDDs,p(45°,400-700nm)/<60fs2
2	> 10	Ag + Multilayer HRr(45°,515nm+1030nm)>99.9% + Rr(45°, 630-660nm)>93%
1	> 10	Ag+multilayer HRr(45°, 532 + 1064nm)>99.5% + Rr(45°, 630-660nm)>90%
1	1	Ag + Multilayer HRp(45°,570-1000nm)>97%, \|GDD\|<10fs2
1	0	Ag + multilayer HRs(45°,680-940nm)>99.5%, \|GDD\|<10fs2
3	> 10	Ag + multilayer HRr(45°,700-900nm)>99%, GVD<10fs2
1	> 10	Ag + multilayer HRs+p(45°,700-980nm)>97%, GVD<10fs2
1	9	Ag + Multilayer HRr(45°, 700-900nm)>98%, \|GDD-Rr(45°, 700-900nm)\|<20fs2, Tr(45°, 800nm)=(0.03±0.02)%
3	4	Ag + Multilayer HRs,p(45°,700-1000nm)>98%, GVD<10fs2
6	> 10	Ag + enhanced fs-optimiert HRs(45°,710-1060nm)>99% + HRp(45°,710-1060nm)>98%, \|GDD-Rs,p\|(45°,710-1060nm)\|<20fs2
2	7	Ag + Multilayer HRs+p(45°,750-850nm)>99.5%, GDD optimiert
3	0	Ag-enhanced: HRr(45°,798-990nm)>99% + HRr(45°,808+940+980nm)>99.5%
2	2	Ag + multilayer HRr(45°,800-1150nm)>98%, GVD<20fs2
1	1	Ag + Multilayer HRr(45°,808-1064nm)>99% + Rr(45°, 1000-2000nm)>93%
1	1	Ag + Multilayer HRr(45°,970-1110nm)>99.8%, GVD<20fs2
2	5	Ag + Multilayer HRr(45°,1030nm)>99.98% + HRr(45°,1070nm)>99.95% + Rr(45°,400-600nm)>60% + Rr(45°,600-3200nm)>90%
1	0	Ag + Multilayer, HRr(45°,1050-1500nm)>99%
1	2	Ag + multilayer HRr(45°,1050-1550nm)>98%, GVD<30fs2
1	8	Ag + multilayer, opt. HRr(45-60°,1064nm)>99.9%

?低損耗高反鏡

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4	> 10	HR(0°,266nm)>99.7%, T(0°, 266nm)~0.025±0.01% (Low Loss)
1	2	HR(0°,315nm)~99.6% (Low Loss)
2	4	HR(0°,325-360nm)>99.9%, T(0°,325-360nm)~0.004...0.015% (Low Loss)
2	> 10	HR(0°,330nm)>99.8%, T(0°,330nm)~0.002% (Low Loss)
4	> 10	HR(0°,330nm)>99.8%, T(0°,330nm)~0.01-0.015% (Low Loss)
2	> 10	PR(0°, 330nm)~99.95±0.02%, T(0°, 330nm)~0.03±0.02%, Low Loss
1	3	HR(0°,335-350nm)>99.8%, T(0°.342nm)~0.002% (Low Loss)
3	> 10	HR(0°,340-360nm)>99.9%, T(0°, 340-360nm)~0.01% (Low Loss)
3	0	HR(0°,340-360±3nm)>99.9%, T(at 355nm)~0.01-0.015% (Low Loss)
4	> 10	HR(0°,340-370±4nm)>99.9%, T(measurement)~0.01-0.02% (Low Loss)
1	1	HR(0°,350-365nm)>99.9% (Low Loss)
2	7	HR(0°,360nm)>99.85%, T(0°,360nm)~0.002% (Low Loss)
3	> 10	HR(0°,360-395nm)>99.95%, T(0°,375nm)~0.006% (Low Loss)
3	8	PR(0°, 365nm)~99.95±0.02%, T(0°, 365nm)~0.04±0.02%, low loss
4	8	HR(0°,370-395±3nm)>99.96%, T(measurement)~0.01-0.15% (Low Loss)
3	> 10	HR(0°,380-420nm)>99.95%, T(0°, 380-420nm)~0.006...0.015% (Low Loss)
3	> 10	HR(0°,380-420±4nm)>99.95%, T(measurement)~0.01-0.02% (Low Loss)
1	0	HR(0°,387nm)>99.92±0.02% (Low Loss)
2	> 10	HR(0°,390nm)>99.9%, T(0°,390nm)~0.002% (Low Loss)
2	> 10	HR(0°, 390-440m)>99.95%, T~0.007...0.03%, Low Loss
2	1	HR(0°,400-405nm)~99.975% + HR(0°,633nm)~95...99%, T(0°,400-405nm)~0.01% (Low Loss)
1	1	HR(0°,405nm)>99.98%, T(0°,405nm)~0.005%, Low Loss
1	1	HR(0°,410nm)=99.95±0.02%, T at 410nm~0.012% (Low Loss)
1	0	HR(0°,410nm)>99.9% (Low Loss)
1	6	HR(0°,420-450nm)>99.98%, T(0°, 420-450nm)~0.004...0.01% (Low Loss)
2	0	HR(0°, 430nm)>99.98%, T(0°,430nm)~0.002%, Low Loss
2	8	HR(0°, 430-490nm)>99.9%, GDD<20fs2
1	0	HR(0°,432nm)=99.95±0.02%, T~0.012% (Low Loss)
1	0	HR(0°, 440nm)>99.98%, T(0°,440nm)~0.01% (Low Loss)
1	0	HR(0°,445nm)>99.98%, T(0°,445nm)~0.01%, Low Loss
2	> 10	PR(0°,445nm)~99.99±0.005%, T(0°,445nm)~0.01±0.005%, Low Loss
1	0	HR(0°,455nm)>99.985% T(0°,455nm)~0.007% (Low Loss)
2	3	HR(0°,455nm)>99.985% T(0°,455nm)~0.002% (Low Loss)
3	0	HR(0°,460nm)>99.95%, T~0.02% (Low Loss)
2	2	HR(0°, 480nm)>99.98%, T(0°,480nm)~0.002%, Low Loss
2	5	HR(0°, 480nm)>99.99%, T(0°,480nm)~0.0002%, Low Loss
2	0	HR(0°,511nm)>99.97% (Low Loss)
1	1	HR(0°,520-560nm)>99.98%, T(0°,540nm)~0.003...0.005% (Low Loss)
1	4	HR(0°, 525-575+/-5nm)>99.98% (Low Loss) T~0.002%
1	0	HR(0°,532nm)>99.98% (Low Loss) T~0.01%
8	7	HR(0°,532nm)>99.99% (Low Loss) T~0.001%
2	2	HR(0°, 540nm)>99.98%, T(0°,540nm)~0.01% (Low Loss)
1	0	HR(0°,545-595nm)>99.97%, T(0°, 570nm)~0.015% (Low Loss)
1	0	HR(0°,560-680nm)>99.9% + HR(0°,570-670nm)>99.99%, T(0°,620nm)~0.001% (Low Loss)
2	> 10	HR(0°,570nm)>99.97±0.02%,T at 570nm~0.015% (Low Loss)
1	2	HR(0°,570-635±5nm)>99.97% T~0.001%(Low Loss)
2	0	HR(0°,585-605nm)>99.99% T(0°,595nm)~0.001% (Low Loss)
1	0	HR(0°,610-655±5nm)>99.98%, T(measurement)~0.002% (Low Loss)
4	4	HR(0°,620nm)=99.98±0.02%, T at 620nm~0.01% (Low Loss)
3	0	HR(0°,620-680nm)>99.97% T~0.01%(Low Loss)
1	0	HR(0°,620-680nm)>99.985% T(0°,650nm)~0.001% (Low Loss)
2	7	HR(0°,620-680nm)>99.99%, T(0°,650nm)~0.005...0.01% (Low Loss)
6	> 10	HR(0°,620-680nm)>99.99% T~0.002% (Low Loss)
2	4	HR(0°,625nm)>99.99% , T(0°,625nm)~0.001% (Low Loss)
4	1	HR(0°,630nm)=99.93±0.02%, T~0.07% (Low Loss)
1	2	PR(0°,630nm)~99.98%, T(0°,630nm)~0.01% (Low Loss)
5	> 10	HR(0°,633nm)=99.9% T(0°,633nm)>0.08%
1	1	HR(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
1	1	HR(0°,660nm)>99.99%, T(0°,660nm)~0.001% (Low Loss)
3	0	PR(0°, 300-450nm)~99.6±0.3%, T(0°, 300-450nm)~0.3±0.2%, low loss
1	0	HR(0°,680-690nm)>99.94%, low loss, T(0°,685nm)~0.05%
1	1	HR(0°,685nm)>99.99%, low loss, T(0°,685nm)~0.002%
1	0	HR(0°,690-830nm)>99.98% (Low Loss)
1	0	HR(0°,700-800nm)>99.98% (Low Loss)
2	5	HR(0°, 727-733nm)>99.99%, T(0°, 730nm)~0.002%, low loss
1	0	HR(0°,730-780±8nm)=99.97±0.02%, T~0.01% (Low Loss)
1	0	HR(0°,740-870±5nm)>99.95% (Low Loss), T(0°,805nm)~0.002%
6	9	HR(0°,740-870nm)>99.98% (Low Loss)
1	0	HR(0°,763nm)>99.98%, T~0.015 (Low Loss)
1	2	HR(0°,777nm)>99.98% (Low Loss)
3	> 10	HR(0°,780nm)>99.97% (Low Loss)
1	0	HR(0°,780nm)>99.97%, T~0.02% (Low Loss)
5	1	HR(0°,780-850nm)>99.99% , T(0°, 815nm)~0.001% (Low Loss)
3	1	HR(0°,790nm)>99.97% (Low Loss)
2	0	HR(0°, 790-875±8nm)>99.97%, low Loss
2	2	HR(0°, 800nm)>99.99% ,T (0°, 800nm)~0.001% (low loss)
1	0	HR(0°,800-835nm)>99.97% T~0.01%(Low Loss)
2	0	HR(0°,830-870nm)=99.9%, T~0.1%
3	0	HR(0°, 850+/-10nm)>99.97%, T at 850nm~0.01% (Low Loss)
1	0	HR(0°,860-970nm±10nm)>99.97% T(920nm)~0.007±%(Low Loss)
1	0	HR(0°,920-950nm)>99.98% (Low Loss)
5	2	HR(0°,910-1000nm)>99.98% T ~0.007% (Low Loss)
4	> 10	HR(0°,970-1120nm)>99.98% (Low Loss)
8	> 10	HR(0°,990-1085nm)>99.98%, \|GVD(990-1085nm)\|<20fs2 (Low Loss)
3	3	HR(0°, 990-1085nm)>99.99%, \|GDD(0°, 990-1085nm)\|<20fs2 , T(0°, 1038nm)~0.001% (Low Loss)
1	0	HR(0°,1000-1100nm)~99.9% ,T(0°,1050nm)~0.1% (low loss)
3	3	HR(0°, 1000-1110±10nm)>99.98% (Low Loss)
4	10	HR(0-20°,1020-1070nm)>99.98% (Low Loss), transmission not specified
3	3	HR(0°, 1030-1064nm)~99.994% (Low Loss) T~0.005% + PR~95...98%(0°, 600-650nm)
14	> 10	HR(0°,1064nm)>99.98% (Low Loss)
1	0	HR(0°,1064nm)>99.99% , T(0°,1064nm)~0.002% (Low Loss)
2	7	HRs,p(0-45°, 1064nm)>99.95%, Low Loss (transmission not specified)
2	6	HR(0°,1064nm)>99.992% , T(0°,1064nm)~0.001% (Low Loss)
1	1	HR(0°,1064nm)>99.985% + R(0°, 532nm)<2% (Low Loss)
1	0	HR(0°,1130-1190nm)>99.98% ,T (0°,1160nm)~0.01% (low loss)
1	1	HR(0°,1180-1320nm)~99.9% ,T(0°,1250nm)~0.1% (low loss)
2	1	HR(0°,1240-1450±20nm)~99.99% ,T~0.001...0.002% (low loss)
1	0	HR(0°,1240-1650)>99.96% (low loss), transmission not specified
4	> 10	HR(0°, 1250-1450±10nm)~99.99% (Low Loss), T~0.001....0.002%
2	0	HR(0°, 1270nm)~99.995% + PR(0°, 633nm)~95%, T(0°,1270nm)~0.0025% (low loss)
2	10	HR(0°,1280nm)>99.99% (Low Loss), T(0°,1280nm)~0.001%
3	> 10	HR(0°, 1300-1400±10nm)>99.98% (Low Loss), T~0.003%
1	0	HR(0°,1310nm)>99.97% (Low Loss)
3	> 10	HR(0°,1325nm)>99.99% (Low Loss)
1	4	HR(0°,1330-1450nm)~99.99% ,T~0.001...0.002% (low loss)
2	3	HR(0°,1360-1400nm)>99.99% (Low Loss), T~5...10ppm
2	3	HR(0°,1360-1550±10nm)>99.97% T~0.02% (Low Loss)
7	> 10	HR(0°,1390nm)>99.95% (low loss)
1	5	HR(0°,1392nm)>99.99% + R(0°,633nm)~95...99%, T(0°,1392nm)~0.002% (low loss)
1	4	HR(0°,1390)>99.99% (Low Loss), T at 1390nm~0.005...0.008%
4	> 10	HR(0°,1392nm)>99.98% (Low Loss)
2	> 10	HR(0°, 1392nm)>99.99%, (typical ~99.997%) T(0°, 1392nm)~0.0025% (low loss)
1	1	HR(0°,1430-1570nm)>99.99%, T(0°,1500nm)~0.001% (Low Loss)
3	6	HR(0°,1434nm)>99.99% ,T (0°,1434nm)~0.002% (low loss)
2	0	HR(0°,1450-1600nm)>99.975% (Low Loss),T at 1530nm~0,012%
3	2	HR(0°,1450-1670±20nm)~99.99% ,T~0.001...0.002% (low loss)
2	0	HR(0°,1480-1630nm)>99.98% (Low Loss), T(1510nm)~0.005%
3	3	HR(0°,1480-1630nm)>99.99% (Low Loss), T(1510nm)~0.002%
1	0	HR(0°,1500-1700nm)>99.99% (Low Loss), T(0°,1600nm)~0.0005%
1	0	HR(0°,1510nm)>99.98% (Low Loss), T at 1500nm~0.012%
1	0	HR(0°,1520-1575nm)>99.99% , T~0.0006...0.001% (Low Loss)
1	7	HR(0°,1520-1670nm)>99.97% (Low Loss), T at (1600nm)~0.005...0.007%
1	0	HR(0°,1520-1670nm)>99.99% (Low Loss), T at (1600nm)~0.001%
2	0	HR(0°,1520-1670nm)>99.99% , T(0°, 1595nm)~0.001% (Low Loss)
7	> 10	HR(0°,1530-1570nm)>99.97% (Low Loss),T ~0.02%
1	5	HR(0°,1530-1800nm)>99.9%
3	> 10	HR(0°,1570nm)>99.96% (Low Loss)
1	1	HR(0°,1570nm)>99.98% (Low Loss), T(0°,1570nm)~0.002%
1	4	HR(0°,1577+1596nm)>99.99%, T(0°,1577+1596nm)~0.002%
1	0	HR(0°, 1590nm)~99.995% + PR(0°, 633nm)~95%, T(0°,1590nm)~0.0025% (low loss)
3	8	HR(0°,1600-1700nm)>99.99% (Low Loss), T(0°,1650nm)~0.002%
1	2	HR(0°,1620-1690nm)>99.95% T~0.05% (Low Loss)
1	6	HR(0°,1600-1700nm)>99.97%, T(0°, 1650)~0.02% (Low Loss)
1	6	HR(0°,1640-1700nm)>99.97%, T~0.02% (Low Loss)
1	0	HR(0°,1650nm)>99.99% (Low Loss), T(0°,1650nm)~0.002%
6	> 10	HR(0°,1680-1860nm)>99.97% (Low Loss), T at (1800nm)~0.005%
1	7	HR(0°,1730-1840nm)>99.99%, T(0°,1792)~0.001...0.002% (low loss)
1	0	HR(0°,1742nm)>99.99%, T(0°,1742nm)~0.001...0.002% (low loss)
2	2	HR(0°,1760nm)>99.99% (low loss), T~0.001...0.002%
1	0	HR(0°,1870-1880nm)>99.97% (Low Loss), T at 1875nm ~0.005%
1	0	HR(0°,2022-2222nm)>99.99% ,T (0°,2122nm)~0.002% (low loss)
1	2	HR(0°,2022-2222nm)>99.99% ,T (0°,2122nm)~0.004% (low loss)
3	> 10	HR(0°,2050nm)>99.98% (T~0.002%)
1	10	HR(0°,2050nm)>99.98% (Low Loss), T(2050nm)~0.002%
3	> 10	HR(0°,2300nm)>99.98% (Low Loss), T(2300nm)~0.001...0.002%
4	> 10	HR(0°,2300nm)>99.99% (Low Loss), T(0°, 2300nm)~0.001%
1	2	HR(0°,2600nm)>99.9% (Low Loss), T(0°, 2600nm)~0.01%
1	4	HR(0°, 2800nm)>99.7% ,T (0°, 2800nm)~0.002% (low loss)
4	7	HR(0°,3000-3500nm)>99.7% (low loss)
1	0	HR(0°,3800-4000nm)>99.9% (low loss), T(0°, 3900nm)~0.02%
2	6	HRr(45°,633nm)>99.98% Tr~0.001% (Low Loss)
1	8	HRs(45°, 1064nm)>99.99%, T~0.002% (low loss)
2	8	PR(0°, 308nm)=99.9±0.05% , T(0°, 308nm)=0.03±0.02% (low loss)
1	2	PR(0°,370nm)=97.5...98.0%, T(0°,370nm)~2% (Low Loss)
3	> 10	PR(0°, 660nm)~99.95±0.02%, T(0°, 660nm)~0.04±0.02%, low loss
1	0	PR(0°, 740nm)=99.9±0.2% (low loss), T(0°,740nm)~0.08%
1	0	PR(0°, 1008nm)=99.9±0.2% (low loss), T(0°,1008nm)~0.08%
3	2	PR(0°,1112nm)=99.985±0.005%, T(0°,1112nm)~0.015% (low loss)
1	0	PRs(45°, 729nm)=99.8±0.05%, Ts(45°,729nm)~0.2% (low loss)

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