Optical Single Hole and Multi Holes Quartz Fused Silica Glass Laser Cavity

Specifications
Material: Quartz glass, fused silica, Cerium doped quartz, Europium Doped Quartz, Titanium doped quartz, Samarium doped quartz glass
Dimension: 3.00mm-380.00mmm
Tolerance: +/-0.1mm
Surface Accuracy: As requested
Surface Quality: 60/40
Clear Aperature: 95%
Coating: Optional

Laser flow tubes are used as filter media in the laser cavity of flash lamp pumped solid-state laser systems. Flow Tubes transmit the ideal pumping bands while filtering undesired UV radiation
and parasitic lasing.

Types of laser cavity filters

We produce laser cavity filters according to the customer’s specifications, with single hole, double and triple holes….based on the different applications or properties.

Material of tube laser cavity filters

The material chosen for the laser flow tube will depend on your application. According to different application and performance requirements, the available materials are as follows:

  • Synthetic Quartz
  • Fused Silica
  • Cerium Doped Quartz
  • Europium Doped Quartz
  • Titanium Doped Quartz
  • Samarium Doped Quartz Glass 

The laser cavity (condensing cavity) is mainly used for lasers, with the wide application of laser technology, the cavity style has also undergone various changes.

Compared with ceramic concentrating cavity and resin concentrating cavity, quartz material is corrosion-resistant, not easy to be damaged, easy to clean, and has a long working life. The laser cavity made of quartz glass as raw material, which enables the laser to run stably and reliably for a long time.

People Also ask

  • What is laser cavity mode?
    Laser mode means the possible standing waves in laser cavity. We see that stimulated lights are transmitted back and forth between the mirrors and interfere with each other, as a result
    only light whose round trip distance is integer multiples of the wavelength l can become a standing wave.
     
  • What is the difference between cavity filter and bandpass filter?
    Band Pass Filter (BPF) and Cavity Diplexer have one thing in common that they both have to deal with frequency filtering. BPF lets only the frequency of a particular range to pass while
    Cavity Diplexer keeps frequencies separated that are received and transmitted.
     
  • What are the advantages of cavity filter?
    Cavity filters offer the user very low insertion loss, steep skirt selectivity, and narrower bandwidths than discrete component filters. Smiths Interconnect’s waveguide filters provide
    low-loss solutions for high power applications.
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