Solid State Laser Lab laser source

689nm Red Diode Laser Coupled SMA905 Fiber

by Laser Explorer Posted on 976 views
Is is a 689nm red laser system. The output power of the laser is adjustable from 0 to 1800mW. It supports 3 working modes, CW/TTL/Analog. In TTL/Analog modulation mode, an external modulation signal needs to be connected. The following video demonstrates the CW working mode of the laser. This laser is equipped with a pluggable ...
continue reading
Solid State Laser Lab laser source

532nm 10W DPSS Laser Strong Green Laser Beam

by Laser Explorer Posted on 749 views
A diode-pumped solid-state laser (DPSSL) is a solid-state laser made by pumping a solid gain medium, for example, a ruby or a neodymium-doped YAG crystal, with a laser diode. DPSSLs have advantages in compactness and efficiency over other types, and high power DPSSLs have replaced ion lasers and flashlamp-pumped lasers in many scientific applications, and ...
continue reading
Solid State Laser Lab laser source

10W DPSS Laser 1064nm IR Lab Laser System

by Laser Explorer Posted on 756 views
It is 1064nm high power laser with heat sink at the bottom of the laser head. It adopts air cooling mode, with 2 cooling fans. The modulation mode can be selected from the original TTL or Analog, and upgraded to be compatible with both. When the key is turned ON, the laser starts to work. ...
continue reading
Solid State Laser Lab laser source

543nm Fiber Laser Source Green Laser Beam

by Laser Explorer Posted on 527 views
Today we are going to demonstrate a 543nm 100mW fiber coupled laser. The output can be adjusted by the rotary button on the power supply. There are 3 working modes for the laser to choose from. Select the working mode CW/TTL/Analog by the sliding button on the back of the power supply. This laser coupled a 1000μm, ...
continue reading
Solid State Laser Lab laser source

High Power Laser System — 638nm 15W Red Semiconductor Laser

by Laser Explorer Posted on 596 views
It’s a 638nm 15W semiconductor laser system.15W laser is high power, we have equipped a radiator in the laser head. The radiator at the bottom of the laser head has 3 cooling fans, which can effectively extend the continuous working time of the high-power laser. The CW/TTL/Analog on the back of the power supply has ...
continue reading
Solid State Laser Lab laser source

940nm 20W Lab Laser Source Diode Laser

by Laser Explorer Posted on 451 views
This is 940nm 20W IR Laser Source. The laser head has a heat dissipation base, which can effectively extend the continuous working time of the laser. The radiator has two cooling fans. The back of the laser head and the power supply, the 3 working modes of the laser, CW/TTL/Analog are set from the back ...
continue reading
Solid State Laser Lab laser source

Lab Line Laser System — 532nm 3W DPSS Laser

by Laser Explorer Posted on 1420 views 0 comments
It’s a 532nm 3000mW DPSS laser system. It’s customized into a line laser. We added line lens, and the fan angle is 30°. The focal length is customized at 2 meters, and the light is the smallest at 2m. Installation is very simple. First, connect the laser head and laser power supply, then connect the ...
continue reading
Solid State Laser Lab laser source

532nm High Power Laser CW/TTL Modulation

by Laser Explorer Posted on 1997 views 0 comments
It is 532nm high power dpss laser with adjustable power supply, the output power can be adjusted from 0 to 5000mW. This laser support CW and TTL/Analog modulation working mode. And the cooling method of the laser is TEC and cooling fan. 5W is a very high laser power, it is necessary to wear safety ...
continue reading
Solid State Laser Lab laser source

355nm 5W Q-Switched Laser UV Laser Water Cooled Type

by Laser Explorer Posted on 1278 views 0 comments
It’s a 355nm Ultra-violet lab laser system. Q-Switched laser at 355nm has the features of high peak power, high repetition rate, and short pulse duration, which is used in scientific research, biology and so on. 5W high power UV laser, water cooling mode is required. Let’s check it now.        
continue reading