Laser Line AR coatings
Coating number |
Wavelength, | Reflectivity, % | Damage |
||
AOI=0° | AOI=45° | nm | AOI=0° | AOI=45° | threshold |
3005-i0 | 3005-i45 | 193 | < 1.0 | <2.0 | 1 J/cm2 in 10 ns |
3007-i0 | 3007-i45 | 248 | < 0.8 | <1.5 | 1.5 J/cm2 in 10 ns |
3009-i0 | 3009-i45 | 266 | < 0.4 | <1.0 | 1.5 J/cm2 in 10 ns |
3011-i0 | 3011-i45 | 308 | <0.3 | <0.6 | 1.5 J/cm2 in 10 ns |
3014-i0 | 3014-i45 | 343 | <0.25 | <0.5 | 2 J/cm2 in 10 ns |
3015-i0 | 3015-i45 | 351-355 | < 0.25 | <0.5 | 2 J/cm2 in 10 ns |
3017-i0 | 3017-i45 | 400 | < 0.25 | <0.5 | 2 J/cm2 in 10 ns |
3021-i0 | 3021-i45 | 488-514 | < 0.3 | <0.5 | 2 J/cm2 in 10 ns |
3023-i0 | 3023-i45 | 515 | < 0.2 | <0.5 | 4 J/cm2 in 10 ns |
3025-i0 | 3025-i45 | 532 | < 0.2 | <0.5 | 4 J/cm2 in 10 ns |
3027-i0 | 3027-i45 | 633-650 | < 0.25 | <0.5 | 4 J/cm2 in 10 ns |
3031-i0 | 3031-i45 | 780 | < 0.2 | <0.5 | 5 J/cm2 in 10 ns |
3033-i0 | 3033-i45 | 800 | < 0.2 | <0.5 | 5 J/cm2 in 10 ns |
3035-i0 | 3035-i45 | 850 | < 0.2 | <0.5 | 5 J/cm2 in 10 ns |
3036-i0 | 3036-i45 | 1030 | < 0.2 | <0.5 | 5 J/cm2 in 10 ns |
3037-i0 | 3037-i45 | 1064 | < 0.2 | <0.5 | 5 J/cm2 in 10 ns |
3041-i0 | 3041-i45 | 1320 | <0.3 | <0.5 | 5 J/cm2 in 10 ns |
3045-i0 | 3045-i45 | 1547 | <0.5 | <1.0 | 4 J/cm2 in 10 ns |
Contact us for other wavelengths and AOI's values.
Dual Band AR Coatings
Coating number |
Wavelength, nm | Reflectivity, % |
Damage | ||
AOI=0° | AOI=45° | AOI=0° | AOI=45° | threshold | |
3106-i0 | 3106-i45 | 266 + 532 | <0.5 | <1.0 | 1.5 J/cm2 in 10 ns |
3110-i0 | 3110-i45 | 355 + 532 | <0.5 | <1.0 | 2 J/cm2 in 10 ns |
3114-i0 | 3114-i45 | 355 + 1064 | <0.5 | <1.0 | 2 J/cm2 in 10 ns |
3118-i0 | 3118-i45 | 400 + 800 | <0.5 | <1.0 | 3 J/cm2 in 10 ns |
3121-i0 | 3121-i45 | 515 + 1030 | <0.5 | <1.0 | 4 J/cm2 in 10 ns |
3122-i0 | 3122-i45 | 532 + 1064 | <0.5 | <1.0 | 4 J/cm2 in 10 ns |
3126-i0 | 3126-i45 | 670 + 1064 | <0.5 | <1.0 | 4 J/cm2 in 10 ns |
3127-i0 |
3127-i45 |
808 + 1064 | <0.5 | <1.0 | 4 J/cm2 in 10 ns |
3130-i0 | 3130-i45 | 1064 +1320 | <0.5 | <1.0 | 4 J/cm2 in 10 ns |
3134-i0 | 3134-i45 | 1064 +1570 | <0.5 | <1.0 | 3 J/cm2 in 10 ns |
Contact us for other wavelengths and AOI's values.
Broad Band AR Coatings
Broad band anti-reflection BBAR coatings are designed for reducing the reflectivity of a component to near-zero for specific range of the wavelength. Therefore light is efficiently transferred through complex optical systems rather than being lost to glare and scatter. Our AR coatings are intended for use at normal incidence, and when used in this way will achieve maximum efficiency transmission.
Coating number | Wavelength, nm |
Reflectivity, % |
Damage | ||
AOI=0° | AOI=45° | AOI=0° | AOI=45° | threshold | |
3205-i0 | 3205-i45 | 210-400 | <2 | <3 | 1.5 J/cm2 in 10 ns |
3207-i0 | 3207-i45 | 250-350 | <1.2 | <2.5 | 1.5 J/cm2 in 10 ns |
3209-i0 | 3209-i45 | 300-400 | <1.0 | <2.0 | 1.5 J/cm2 in 10 ns |
3211-i0 | 3211-i45 | 350-500 | <0.8 | <1.6 | 2.0 J/cm2 in 10 ns |
3213-i0 | 3213-i45 | 350-900 | <1.5 | <3.0 | 2.0 J/cm2 in 10 ns |
3215-i0 | 3215-i45 | 400-550 | <0.4 | <0.8 | 2.5 J/cm2 in 10 ns |
3217-i0 | 3217-i45 | 400-700 | <0.9 | <1.8 | 3.0 J/cm2 in 10 ns |
3219-i0 | 3219-i45 | 420-680 | <0.5 | <1.0 | 3.0 J/cm2 in 10 ns |
3221-i0 | 3221-i45 | 450-750 | <0.5 | <1.0 | 3.0 J/cm2 in 10 ns |
3223-i0 | 3223-i45 | 500-800 | <0.6 | <1.2 | 3.0 J/cm2 in 10 ns |
3224-i0 | 3224-i45 | 500-1000 | <1.5 | <3.0 | 3.0 J/cm2 in 10 ns |
3225-i0 | 3225-i45 | 600-900 | <0.5 | <1.0 | 3.0 J/cm2 in 10 ns |
3227-i0 | 3227-i45 | 750-900 | <0.5 | <1.0 | 3.0 J/cm2 in 10 ns |
3229-i0 | 3229-i45 | 800-1200 | <0.7 | <1.4 | 2.5 J/cm2 in 10 ns |
3231-i0 | 3231-i45 | 1000-1400 | <0.7 | <1.4 | 2.0 J/cm2 in 10 ns |
3232-i0 | 3232-i45 | 1050-1700 | <1 | <1.5 | 2.0 J/cm2 in 10 ns |
3233-i0 | 3233-i45 | 1300-1700 | <0.7 | <1.4 | 2.0 J/cm2 in 10 ns |
3235-i0 | 3235-i45 | 1500-2000 | <0.7 | <1.4 | 1.5 J/cm2 in 10 ns |
Contact us for other wavelengths and AOI's values.
EKSMA Optics Anti-Reflection Coatings
85.17 kB |
These multilayer anti-reflective coatings are designed to reduce the reflectivity of a component to near-zero for one very specific wavelength. Therefore valuable laser energy is efficiently transferred through complex optical systems rather than being lost to glare and scatter. Our anti-reflective (AR) coatings are intended for use at normal incidence, and when used in this way will achieve maximum efficiency transmission.