Collimated Gaussian Beam 405nm Solid State Laser Source with TEC cooled Analog TTL modulation
BeamQUS Inc.
Description
Collimated Gaussian Beam 405nm Solid State Laser Source with TEC cooled Analog TTL modulation. It can be fiber coupled.
Solid State 405nm Laser Features:
TEM00 Gaussian: A TEM00 beam has an intensity profile that is very nearly Gaussian (>95%) and does not change as it propagates (i.e. from when it emerges from the laser to the far field).
TEC cooled long life operation: TEC is also known as solid-state cooling, because there is no liquid refrigerant running through the machine. Instead, solid metal is used to transfer thermal energy.
- Collimated beam
- Analog/TTL modulation
- High efficiency & reliability
Collimated Gaussian Beam 405nm Solid State Laser Source with TEC cooled Analog TTL modulation
BeamQUS Inc.
Specifications |
|
|---|---|
| Wavelength: | 405nm nm |
| Max Output Power: | 200 mW |
| Cooling Method: | Air-Cooled |
| Tunability: | Fixed Wavelength |
| Control Interface: | Digital Control |
| Beam Asymmetry: | <1:1.2 |
| Beam Quality M2: | < 1.2 |
| Beam Divergence (Full Angle): | <0.3mrad |
| Power Stability: | < 2% per 4 hrs |
| Temperature Stabilizing: | TEC |
| Spatial Mode: | TEM00 |
| Mode: | Collimated Gaussian Beam Laser |
Features
- Wavelength: 405+/-5 nm
- Spatial Mode: Multi mode
- Output Power: 50mW,100mW,200mW (Max output power, for the 50mW version, you will get an adjustable output power from 0.01mW – 50mW)
- Spatial Mode: TEM00
- Beam Quality M2 < 1.2
- Beam Asymmetry <1:1.2
- Beam height:25mm
- Beam Size < 3.55mm
- Beam Divergence (Full Angle):<0.3mrad
- Power Stability: < 2% per 4 hrs
- Fiber type: SM, MM
- Operation Mode: CW or Modulation
- Temperature Stabilizing TEC
- Warm Up Time <1 minute
- MTTF 10,000 hrs
- Laser head dimensions LSR-ML: 100(L)x34(W)x45(H)mm3
- LSR-NL: 100(L) x 40(W) x 50(H) mm3
- Collimated beams are laser beams with weak divergence within some region of interest. This implies that they have a relatively large beam radius.
- Achieving a truly collimated beam of divergence 0 is not possible, but an approximately collimated beam by either minimizing the divergence or maximizing the distance between the point of observation and the nearest beam waist is possible.
Applications
- Scanning Biochemistry
- Confocal Microscopy
- Flow Cytometry
- Raman Microscopy
- Material Inspection Lidar
For pricing, technical or any other questions please contact the supplier
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- No markups, no fees
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How to order?
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Ships from:
United States
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Sold by:
BeamQUS Inc. -
On FindLight:
since 2023