Datasheet - Pump Mirror 102063

[  ~  ]
List all articles with the similar coating
Print
Pump Mirror:
Fused silica | plane | Ø=25.0(-0.1)mm | t=6.35(±0.10)mm | //<5min
S1: Øe21 | 3/0.2(0.2) [L/10] | 5/2x0.04; L1x0.004 | chamfer 0.3
     AR(0°,700-950nm)<0.25%
S2(^): Øe21 | 3/0.2(0.2) [L/10] | 5/2x0.04; L1x0.004 | chamfer 0.3
     HR(0°,360-435nm)>99.9% + R(0°,700-950nm)<2%
     |GDD-R(0°,360-435nm)|<20fs²
     |GDD-T(0°,700-950nm)|<20fs²

Product

plane+plane
Round
Article
102063
Type
  • Pump Mirror
  • Long Wave Pass Filter
Laser type
  • Ti:Sa Laser
Coating material (front side)
114024
Coating material (rear side)
133869
Price per unit (net.)
$303.77
discount ▼
from 5 pieces
5 %
from 10 pieces
10 %
from 20 pieces
20 %
Stock
2

General Optical Parameters

Material
Corning 7980 2F or equal
Shape
Round
Diameter (Ø)
25 mm
(-0.1  mm)
Thickness (t)
6.35 mm
(±0.1 mm)
Parallelism

Optical Parameters Front Side  (S2)

Optical Parameters Rear Side  (S1)

Shape
plane
Chamfer
0.3 mm
(±0.1 mm)
Test area Øe
21
Surface form tolerance
3/0.2(0.2) [L/10 @546.1nm]
Cleanliness
5/2x0.04; L1x0.004
Shape
plane
Chamfer
0.3 mm
(±0.1 mm)
Test area Øe
21
Surface form tolerance
3/0.2(0.2) [L/10 @546.1nm]
Cleanliness
5/2x0.04; L1x0.004

Coating specifications front side  (S2)

(114024)
[  ~  ]
List all articles with the same coating as the current front side coating

Coating specifications rear side  (S1)

(133869)
[  ~  ]
List all articles with the same coating as the current rear side coating
1st operating range   HR(0°,360-435nm)>99.9%, |GDD|<20fs²
Type
High Reflectance
Polarisation
unpol.
unpolarized  =  s + p2
Angle of incidence
Wavelength range
360 - 435 nm
HR
> 99.9 %
GDD optimized
0 fs²
(±20 fs²)
2nd operating range   R(0°,700-950nm)<2%, |GDD|<20fs²
Type
Polarisation
unpol.
unpolarized  =  s + p2
Angle of incidence
Wavelength range
700 - 950 nm
AR / HT
< 2 %
GDD
0 fs²
(±20 fs²)
1st operating range   AR(0°,700-950nm)<0.25%
Type
Anti-Reflectance
Polarisation
unpol.
unpolarized  =  s + p2
Angle of incidence
Wavelength range
700 - 950 nm
AR / HT
< 0.25 %