1030nm & more
In recent years, ultrafast high-energy Yb:YAG (~1030 nm) oscillators and amplifiers have become ubiquitous in research labs as well as in a number of industrial applications. Some of the most promising applications include laser ablation and micromachining in industry, and high harmonic generation in research.
Highly dispersive mirrors play a key role in modern ultrafast oscillators since their performance significantly affects that of the laser.
1000nm - 1070nm
* GDD (fs2) = Group Delay Dispersion * CW (nm) = Central Wavelength * AOI = Angle of normal Incidence in degrees * Pol = Polarization
Name
Min (nm)
Max (nm)
CW (nm)
Reflectivity (%)
GDD (fs2)
AOI (°)
Pol
Comments
1027
1033
1030
99.93
-3000
3
p
High-dispersive mirror
1032
1038
1035
99.9
0
45
s
High-reflective mirror
1028
1037
1032
99.5
-4000
5
p
High-dispersive mirror
1010
1030
1020
99.98
-
15
p
Beam splitter, GDD = 0 fs2
1020
1040
1030
99
-2500
5
p
High-dispersive mirror
1020
1040
1030
99.95
-3000
3
p
High-dispersive mirror
1020
1040
1030
99
5000
7
p
Mirror with high positive dispersion
1030
1050
1040
99
1750
5
p
High-dispersive mirror
1030
1050
1040
99
-1200
3
p
High-dispersive mirror
1030
1050
1040
99.9
5000
5
p
Mirror with high positive dispersion
1020
1045
1032.5
99.92
-2000
5
p
High-dispersive mirror with high reflectivity
1050
1075
1062.5
99
-3200
3
p
High-dispersive mirror
1015
1045
1030
99
1000
6
p
Mirror with high positive dispersion
1025
1055
1040
99.9
3000
5
p
Mirror with high positive dispersion
1040
1070
1055
99.95
-2000
5
p
High-dispersive mirror with high reflectivity
1015
1050
1032
1
-
45
p
Thin-film polarizer
1010
1050
1030
99
-1000
5
p
High-dispersive mirror
1010
1050
1030
99.5
-1000
5
p
High-dispersive mirror
1020
1060
1040
99.5
-1050
0
p
High-dispersive mirror
1020
1060
1040
99
-1200
7
p
High-dispersive mirror
1010
1055
1032.5
99
-1200
8
s
High-dispersive mirror
1010
1060
1035
99
-300
8
s
High-dispersive mirror
1010
1060
1035
99.8
-1000
5
p
High-dispersive mirror
1010
1060
1035
99.8
1000
5
p
Mirror with high positive dispersion
1000
1060
1030
99.95
-500
7
p
High-dispersive mirror with high reflectivity
1000
1060
1030
99
-500
5
p
High-dispersive mirror
1010
1070
1040
99
-1000
7
s
High-dispersive mirror
1010
1070
1040
99.5
-1000
5
p
High-dispersive mirror
650nm - 1400nm
* GDD (fs2) = Group Delay Dispersion * CW (nm) = Central Wavelength * AOI = Angle of normal Incidence in degrees * Pol = Polarization
Name
Min (nm)
Max (nm)
CW (nm)
Reflectivity (%)
GDD (fs2)
AOI (°)
Pol
Comments
980
1060
1020
99.98
-25
0
p
Dispersive mirror with high reflectivity
980
1080
1030
99
-500
5
p
Dispersive mirror with high reflectivity
1010
1110
1060
99.9
0
6
s
Mirror with third order dispersion (TOD)
1010
1110
1060
99
0
3
p
High-reflective mirror
980
1100
1040
99
-150
5
p
Dispersive mirror with high reflectivity
950
1100
1025
99.95
-25
5
p
Dispersive mirror with high reflectivity
970
1120
1045
99
-50
5
p
Dispersive mirror with high reflectivity
UHR11
970
1120
1045
99
0
3
p
High-reflective mirror
950
1120
1035
99.8
-200
5
p
High-dispersive mirror
950
1130
1040
99.99
0
45
p,s
High-reflective mirror
925
1125
1025
99
-50
12
both
Broad-band dispersive mirror
950
1200
1064
99.99
0
45
s
High-reflective mirror
875
1150
1010
99.99
0
45
s
High-reflective mirror
850
1200
1025
99
-200
5
p
Broad-band double-angle dispersive mirror
850
1200
1025
99.7
-150
7
p
High-dispersive mirror
820
1220
1020
98
-50
5
s
Broad-band dispersive mirror
800
1300
1050
99.5
-100
5
p
Broad-band double-angle dispersive mirror
800
1300
1050
99.6
-120
2
p
Broad-band complementary pair
730
1300
1015
99
-50
5
p
Broad-band dispersive mirror
730
1300
1015
98.5
70
7
p
Broad-band complementary pair
700
1350
1025
-
0
45
p
Beam splitter, GDD = 0 fs2
700
1350
1025
99.9
-65
45
s
Broad-band complementary pair
650
1350
1000
98
-40
5
p
Broad-band double-angle dispersive mirror
650
1350
1000
99
-60
5
p
Broad-band complementary pair
700
1400
1050
-
0
45
p
Beam splitter, GDD = 0 fs2
700
1400
1050
98.8
-85
5
p
Broad-band complementary pair
700
1400
1050
98.5
-55
0
p
Broad-band complementary pair
650
1380
1015
99
-50
5
p
Broad-band complementary pair
660
1400
1030
99
-
19
p
Broad-band high-reflective mirror
UHR11
Details Description of the design
High-reflective mirror
Type
Mirror
Subtype
HR (high-reflection) mirror
Angle of Incidence in degrees
3 °
Polarization regime (primary spectral range)
p
Spectral category
IR
Spectral working range low end
970 nm
Spectral working range high end
1120 nm
Central wavelength
1045 nm
Nominal GDD
0 fs2
Minimum reflectance
99 %
Maximum reflectance
-
Minimum transmission
-
商品属性 [波长] 1045nm [反射率] 99% [偏振] p