| |||
  |
|||
| Femtosecond laser processing has great advantages in precise micro-machining to the transparency materials such as silica glass, sapphire, and diamond. Our processing technologies may provide the precise micro-holes and binary lens processing. | |||
| The femtosecond laser has an ultra short pulse width of 100 fs (1fs=10-15) compared to that of the conventional YAG laser of several tens of ns (1ns=10-9). A wavelength of the femtosecond laser is near infrared light of 800nm which is transparent to materials such as a sapphire and a silica glass. However focused femtosecond laser can induce refractive index modification inside the materials or ablate materials on the surface only around the focal point. By using these features, three-dimensional micro structures and micro optics can be generated on and inside the materials. |
  Dia.: 25μm, thichness: 500μm, silica glass |
 Specifications· Min. diameter: ≥ 0.5μm · Max. aspect ratio: ≤ 20 · Circularity: ≤ 1μm Features· High aspect ratio · Small surface roughness (Ra ≤ 10nm) Applications· Micro nozzle · Micro fluidics |
 |
 Three-dimensional hole in a sapphire wafer
 |
 Dia.: 1.0mmφ, silica glass |
Features · Min. line width: ~2.5μm · Max. diffraction efficiency: ~40% Applications· Optical sensor window · Micro lens Applicable materials· Silica glass, pyrex · Sapphire, diamond · Single crystals, various other glasses Focused beam intensity distribution,diameter(1/e2 )=18μm |
|
||||
