- Details
The open struture design will help us to understand the laser's structure.
The use of a fully open cavity optical path structure helps students understand the basic structure of the laser.
Safety design on laser tube
Primary laser tube with protective tube, the terminal wire put inside, It is safe when using.
Industrial-level optical track and Mount, to ensure the stability of the laser output
Industrial-level optical track and Mount, to ensure the stability of the laser output.
Optional optical power meter to monitor laser power
Adjust the optical path of the laser power can be monitored in real time through the power meter, This will help to understand the relationship between the optical path and the laser output.
Typical experiments and data
1.Understand the laser struture and learn to adjust the resonant cavity
2.Measure laser's longitudinal mode
Use oscilloscope output the signal Use PASCO interface to output the signal
3.Verify the laser is linear polarization output.
Part List
BEM-5201-10 Track, with Strong Base, L1000mm
BEM-5204-30 Optical Carrier, W30mm (5)
BEM-5203 Precision Kinematic Optical Mount, Φ45mm, 2D (5)
BEM-5024 F-P Confocal Resonator Scanning Interferometer, Δν=1.5GHz
BEM-5020 Sawtooth Wave Generator
BEM-5025 Pilot Laser with Power Supply, 1800V,max 5mA, <5mW, Singlemode
BEM-5026 Sheath Protection Main Laser with Power Supply, 2500V,max 8mA, <5mW, Multimode
BEM-5404 Polarizing Filter
BEM-5406 Flat-concave Mirror, R=1000mm
BEM-5407 Flat Mirror
BEM-5212 Laser Base (2)
BEM-5801 Laser Goggles
BEM-5220 Fixed Mount, Φ45 (2)
BEM-5221-05 Diaphragm, Φ5
Packinglist
Experiment × 1(Please see equipment list);Power Cord×3;Four-wire Connector cable×1;main laser Connector cable×2;BNC Connector Cable× 3;User’s Manual × 1.
Option
Optical Silicon Detector, BIM-7101