Glass+Er,Yb:glass+Co:spinel

Glass+Er,Yb:glass+Co:spinel

Glass+Er, Yb:glass+Co: spinel bonding crystals are formed by bonding glass and Co: spinel at both ends of Er and Yb: glass. They can effectively improve the comprehensive performance of Er, Yb: glass.

Glass+Er, Yb:glass+Co: spinel bonded crystals are formed by bonding glass and co: spinel at both ends. They can effectively improve the thermal effect of ER and Yb: glass crystals. They feature absorption bandwidth, long fluorescence life, high optical quality, and high slope efficiency. Furthermore, they have the following functions:

  • Reduce the thermal lens effect formed during laser pumping
  • Improve the beam quality of the laser
  • Improve the output efficiency of the 1535 nm laser
  • Improve the stability of the laser’s output capacity
  • Improve the service life of the laser

CRYLINK uses surface activation bonding technology, which is a bonding technology at low or normal temperatures. The typical features are surface cleaning and surface activation.

Before bonding, the bombardment of fast atoms or ion beams on the bonding surface can effectively increase the bonding strength and achieve high-quality bonding between inorganic materials, metals, and semiconductor materials.

Compared with the high-temperature thermal bonding method, the surface activation bonding technology has a higher bonding force interface, better optical absorption loss and surface shape change control.

In contrast, the impurities on the thermal diffusion bonding surface cannot be removed and are bonded on the bonding surface. Surface-activated bonding technology has the following advantages:

  • Removing various polishing residual components
  • Removing organic pollutants
  • Removing surface oxide layer
  • Breaking chemical bonds of materials
  • Improving activation energy

The produced Glass+Er, Yb:glass+Co: spinel bonded crystals have high bonding strength, small bonding surface absorption loss (generally less than 20ppm) and small change of bonding surface shape (bonding surface shape <lamda/8). The shape of the bonded crystal can be a rod, plate, waveguide, or sandwich.

Various coatings can be provided at both ends of the bonded crystal, such as two end antireflection films AR@1535 nm, s1: HR@1535 nm+AR @940 nm, and S2: AR@1535+HR @940 nm, etc. Glass+Er, Yb:glass+Co: spinel bonded crystals are widely used in rangefinder, radar, target recognition and other fields.

Features of Glass+Er, Yb:glass+Co: spinel bonding crystals:

  • It can effectively improve the thermal effect of Er, Yb: glass crystals
  • Reduce the thermal lens effect formed during laser pumping
  • Absorption bandwidth, long fluorescence life, high optical quality and high slope efficiency
  • Improve the beam quality of the laser and improve the output efficiency of the 1535 nm laser
  • It can improve the stability of the output capacity of the laser and the service life of the laser

Glass+Er,Yb:glass+Co:spinel

Glass+Er,Yb:glass+Co:spinel
MaterialsGlassEr,Yb:glassCo:spinel
Concentrations/0.5%\1.0%\1.5%/
Initial Transmission//30~99%
StructureRods/Slabs/Sandwich/Waveguide/
End-face ConfigurationFlat/Convex/Wedge
Side ConfigurationPolish/Fine Ground
Coating availableAR@1535nm/AR@1535nm
HR@1535nm+AR@940nm/PR@1535+HR@940nm
others/others

Related product(s) with Glass+Er,Yb:glass+Co:spinel:

Er glass-CRYLINK CoSpinel(Cobalt-spinel) passive Q-switched crystal crylink
Erbium glass (Er,Yb:Glass) Co:spinel
Glass+Er,Ybglass-CRYLINK Er-Yb-Glass+co-spinel-CRYLINK
Glass+Er,Yb:glass+Glass Er,Yb:glass+Co:spinel

 

 

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