4-DKD-1513-1 - DKDP crystal for SHG@1064nm, Type I, 15 x 15 x 13 mm, AR 1064+532/1064+532 nm

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4-DKD-1513-1 - DKDP crystal for SHG@1064nm, Type I, 15 x 15 x 13 mm, AR 1064+532/1064+532 nm
630,50 $US
Crystals are also widely used for electro-optical applications as Q-switches for Nd:YAG, Nd:YLF, Ti:Sapphire and Alexandrite lasers, as well as for Pockels cells. The most commonly used electro-optical crystal is DKDP with a deuteration more than 98%. These crystals are grown by a water-solution method and can be grown up to very large sizes. Therefore, they are as low-cost and large-size finished non-linear components available.
For frequency-doubling (SHG) and -tripling (THG) of Nd:YAG laser at 1064 nm, both type I and type II phase-matchings can be employed for Nonlinear single crystals KDP and DKDP. For frequency - quadrupling (4HG, output at 266 nm) of Nd:YAG laser KDP crystal is normally recommended.


We offer large aperture KDP crystals (up to 400x400mm and 10- 50mm length).
Aperture x length, mm 15 x 15 x 13
Application SHG@1064nm, Type I
Crystal DKDP
Orientation Theta/Phi, deg 36.5/45
Protective Coatings S1/S2, nm/nm 1064+532/1064+532
Delivery 2-4 weeks
Description

Détails

Crystals are also widely used for electro-optical applications as Q-switches for Nd:YAG, Nd:YLF, Ti:Sapphire and Alexandrite lasers, as well as for Pockels cells. The most commonly used electro-optical crystal is DKDP with a deuteration more than 98%. These crystals are grown by a water-solution method and can be grown up to very large sizes. Therefore, they are as low-cost and large-size finished non-linear components available. For frequency-doubling (SHG) and -tripling (THG) of Nd:YAG laser at 1064 nm, both type I and type II phase-matchings can be employed for Nonlinear single crystals KDP and DKDP. For frequency - quadrupling (4HG, output at 266 nm) of Nd:YAG laser KDP crystal is normally recommended.
We offer large aperture KDP crystals (up to 400x400mm and 10- 50mm length).
Fonctionnalités
  • Good UV transmission
  • High optical damage threshold
  • High birefringence
  • High nonlinear coefficients
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