Description:
Fabry Perot Diode Lasers are the most common type of diode lasers. They are spacially single mode. Typical geometrical sizes of the laser chip are 1000µm x 500µm x 200µm (length x width x height). Depending on the chip length, Fabry Perot lasers operate longitudinally single- or multimode.
Introduction:
The laser chip is grown by MOVPE of compound semiconductor material. The optical gain is provided by double heterostructure which include several Quantum Wells for electronic confinement. Typcal emitter width ranges from 3µm to 7µm. The surfaces of the laser chip act as cavity mirrors due to the difference of the refractive index of the laser material and the surrounding air. These optical surfaces are protected by thin optical films for lifetime purposes.
Available wavelength range is from 375nm .. 440nm, 635nm .. 1710nm. Output power range is from 1mW .. 200mW. The most commone types of laser mount are 5.6mm TO-can and 9mm TO-can.
Products including Fabry Perot Diode Lasers:
Fabry Perot diode lasers are included within the following products:
- CAT Series CW: Laser pointer, continuous wave operation
- CAT Series PS: Laser pointer, nanosecond operation
- CHEETAH FPD: Temperature stabilized laser system
- Anti-reflection coated diode lasers
Manufacturing Capabilities:
Sacher Lasertechnik operates a full technology line for the assembly of Fabry Perot diode lasers.
Technical Details
Available wavelength range is from 375nm .. 440nm, 635nm .. 1710nm. Output power range is from 1mW .. 200mW. The most commone types of laser mount are 5.6mm TO-can and 9mm TO-can.
Specs & Stock List
|
Model #
|
Lambda / nm
|
P / mW
|
Width / µm
|
Ith / mA
|
Iop / mA
|
Uop / V
|
Div. q_|_
|
Div. q||
|
Pol.
|
Efficiency W/A
|
Pin- Code
|
|
FP-0740-010
|
740
|
10
|
4
|
60
|
80
|
2.2
|
25
|
10
|
TM
|
0.9
|
G2
|
|
FP-0765-030
|
765
|
30
|
4
|
40
|
80
|
2.1
|
26
|
10
|
TE
|
0.8
|
G2
|
|
FP-0770-100
|
770
|
100
|
4
|
30
|
130
|
2.2
|
25
|
10
|
TM
|
1.2
|
G2
|
|
FP-0780-100
|
780
|
100
|
4
|
30
|
130
|
2.2
|
25
|
10
|
TM
|
1.2
|
G4
|
|
FP-0810-100
|
810
|
100
|
4
|
50
|
230
|
2.2
|
28
|
10
|
TM/TE
|
1.1
|
G2
|
|
FP-0850-100
|
850
|
100
|
3
|
25
|
140
|
2.2
|
24
|
10
|
TE
|
1.0
|
G2
|
|
FP-0875-100
|
875
|
100
|
3
|
30
|
140
|
2.2
|
24
|
10
|
TE
|
1.0
|
G2
|
|
FP-0940-100
|
940
|
100
|
3
|
20
|
200
|
2.3
|
24
|
10
|
TE
|
0.9
|
G2
|
|
FP-0980-150
|
980
|
150
|
4
|
60
|
300
|
2.5
|
23
|
10
|
TE
|
0.8
|
G2
|
|
FP-1020-150
|
1020
|
150
|
3
|
20
|
120
|
1.9
|
26
|
10
|
TE
|
0.8
|
G2
|
|
FP-1060-080
|
1060
|
80
|
3
|
20
|
90
|
1.7
|
39
|
10
|
TE
|
0.7
|
G2
|
|
FP-1080-050
|
1080
|
50
|
3
|
20
|
60
|
1.2
|
28
|
28
|
TE
|
0.15
|
G2
|
|
FP-1260-010
|
1260
|
10
|
3
|
20
|
60
|
1.1
|
28
|
28
|
TE
|
0.16
|
G2
|
|
FP-1310-010
|
1310
|
10
|
3
|
20
|
60
|
1.1
|
28
|
28
|
TE
|
0.16
|
G2
|
|
FP-1330-010
|
1330
|
10
|
3
|
20
|
60
|
1.1
|
28
|
28
|
TE
|
0.12
|
G2
|
|
FP-1410-010
|
1410
|
10
|
3
|
20
|
60
|
1.1
|
28
|
28
|
TE
|
0.14
|
G2
|
|
FP-1480-010
|
1480
|
10
|
3
|
20
|
20
|
1.1
|
28
|
28
|
TE
|
0.14
|
G2
|
|
FP-1530-010
|
1530
|
10
|
3
|
16
|
56
|
1.1
|
28
|
28
|
TE
|
0.14
|
G2
|
|
FP-1560-010
|
1560
|
10
|
3
|
16
|
56
|
1.1
|
28
|
28
|
TE
|
0.14
|
G2
|
|
FP-1630-005
|
1630
|
5
|
3
|
19
|
49
|
1.1
|
28
|
28
|
TE
|
0.09
|
G2
|
|
FP-1650-005
|
1650
|
5
|
3
|
19
|
49
|
1.1
|
28
|
28
|
TE
|
0.09
|
G2
|
|
FP-1690-005
|
1690
|
5
|
3
|
19
|
49
|
1.1
|
28
|
28
|
TE
|
0.09
|
G2
|
Legend:
| |
Lambda |
Wavelength / nm
|
|
Uop |
Operation Voltage / V |
|
| |
P |
Output Power / mW
|
|
Div.q_|_ |
Beam Divergence / FWHM |
|
| |
Width |
Emitter Width / µm
|
|
Div. q|| |
Beam Divergence / FWHM |
|
| |
Ith |
Threshold Current / mA
|
|
Pol. |
Polarization |
|
| |
Iop |
Operation Current / mA
|
|
Pin Code |
Type of Laser Carrier |
|
Applications
• Caesium Spectroscopy - D1 Line
• Caesium Spectroscopy - D2 Line
• Indium Spectroscopy
• MolECL - Modelocking External Cavity Laser Sensor
• Rubidium Spectroscopy - D1 Line
• Rubidium Spectroscopy - D2 Line
• Water Vapor Spectroscopy
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