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TGG Crystals

  • Large Verdet constant (~40 Rad T^-1m^-1)
  • Low optical losses (<0.1%/cm)
  • High thermal conductivity and High damage threshold (>1GW/cm2)
  • Transmission range 400-1100nm, excluding 475-500nm
  • Precision-polish and high-transmission AR coating
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Specifications:

Orientation[111}Within ±15'Extinction Ratio>30dB
Length Tolerance±0.2mmDiameter Tolerance±0.1mm
Surface Flatness<λ/8@633nm
Surface Quality10/5 S/D
Wavefront Distortion<λ/8@633nmParallelism20 arc sec
Perpendicularity≤15 arc minAR Coating
Ravg0.2% @1064nm
Chamfer

≤0.2mmx45°


Material Properties:

Chemical FormulaTb3Ga5O12Lattice Constanta=12.355angstrom
Growth MethodCzochralski MethodMelting Temperature
1725°C
Material Density
7.13g/cm3
Mohs Hardness
Refractive Index1.954@1064nm

TGG Crystal, or Terbium Gallium Garnet Crystal, with chemical composition TbGa5O12, as a synthetic garnet, is the most prevalent magneto-optical material used to manufacture Faraday rotators and various magneto-optical components.

As the most common magneto-optical crystal used for making Faraday rotators and isolators, TGG features ideal optical transparency with its transmission range from visible to near-infrared (400-1100nm, excluding 475-500nm) and large Verdet constant. The Verdet constants for TGG are -134 Rad T^-1 m^-1 at 632.8nm and -40 Rad T^-1 m^-1 at 1064 nm. The substantial Verdet constants result in the Faraday effects. Through locating a TGG crystal rod in a strong magnetic field, a Faraday rotator can be obtained, which introduces non-reciprocal, over 45° Faraday rotation in polarization. This rotation in polarization is the core principle of a Faraday optical isolator. And with its function of rotation on the polarization plane, a lot of optical devices, besides isolators, could also be contrived, such as magneto-optical modulators, circulators, current measuring transducers, etc. 

Other characteristics of TGG  are also desirable, including superb thermal properties (thermal conductivity 7.4w/m/k), low optical losses (<0.1%/cm), and high laser-induced damage thresholds (>1 GW/cm2). These advantages in total make TGG crystals perform better when coping with high average power fiber lasers than terbium-doped glasses in terms of greater Verdet constant and lower optical losses.

Hangzhou Shalom EO supplies and sales Custom Czochralski-grown, precision-polished Terbium Gallium Garnet (TGG) Crystals with high surface quality (10/5 S/D) and high transmission AR Coatings, realizing strong magneto-optical effects with effective light-blocking functions in the lasers meanwhile ensuring small optical loss. Our manufacturing and sales expertise enables us to provide exceptional TGG crystals at a competitive price.