Femtosecond Laser Mirror, 820nm, Ultra-broadband, High damage threshold, 45°

Numéro de référence fabricant :


Fabricant Acal BFI - Custom Optics

Acal BFi - Optics

Description :

The MLD and MMLD mirrors series have been developed for the most challenging ultrafast laser developments, tested and qualified by well known research institutes. These ultra-broadband mirrors offer a unique combination of ultrabroad bandwidth, very high damage threshold from femtosecond to nanosecond regime and low GDD across the entire bandwidth. All parameters have been fully tested and the surface quality is guaranteed after coating. While the most common optics are flat mirrors from 1 inch to 4 inches, components are available up to 40 inches on request and/or with non flat surfaces, including 90° off-axis parabola which are ideal for compressors. Those coating are available for both the Ti:Sa users (around 820 nm or so) and the users of broadband 1 micron lasers.

View our wide range of Ultrafast optical components

View our portfolio of Optical Components

See all products from our supplier Acal BFi

  • Prix et disponibilités

  • Posez une question à nos experts


  • Central Wavelength: 820 nm (others on request, broadband ultrafast 1 micron optics also available)
  • Angle of incidence: 45° or (0° also available)
  • Diameter: 1, 2 and 4 inches (up to 40 inches diameter and spherical/aspherical optics also available)
  • Laser Induced Damage Threshold : > 8-9 J/cm² @ 150 ps / > 2 J/cm² @ 40 fs / > 0.6 J/cm² @ 11 fs
  • Benefits

  • > 200 nm bandwidth
  • Very high damage threshold
  • Low GDD across the complete range
  • Surface quality given after coating
  • Optimised for both S and P polarisation
Caractéristiques Produits similaires
Type Mirrors  

   produits similaires trouvés

Rechercher des produits similaires
Wavelength Range 650-1100nm (TiSa)  
Type of Coatings Dielectrics  
Pulse Length <15fs  

Interrogez nos experts

Lisez nos FAQs ci-dessous et soumettez-nous les vôtres

    Which laser beam modulation system do I choose to improve performance in many electro-optic applications?

    Please read our Introduction to laser beam modulation, which will guide you through the various systems to choose from.

    Expert: Jean-Claude Sanudo

    Do you have more information on popular non linear crystals?

    Please see our Introduction to non-linear crystals, which provides more information on popular crystals.

    Expert: Jean-Claude Sanudo

  • Nouvelle question? Interrogez notre équipe