Tuneable Etalons

Background

We offer the world's finest solid and air spaced etalons, with fluid jet polishing systems allowing  us to routinely provide surfaces that are better than lambda/100 peak to valley.


  • Solid etalons
  • Air spaced etalons
  • Piezo tunable etalons
  • Gire Tournois etalons


We have extensive expertise in the provision of all kinds of Fabry Perot etalons from 1mm square to 100mm in diameter.  These devices require high quality, very flat optical surfaces and extreme parallelism to achieve high performance, making them a good match for the polishing and metrology at LightMachinery.


Etalons can be made from a wide variety of materials including; Fused Silica, Silicon and even Air.  Use a simple web based etalon calculator to determine the thickness and coating reflectivity to meet your requirements.


Tuneable Etalons

There are a number of ways to tune etalons including:  tilting the entire etalon, moving the mirrors and changing the index of the medium (pressure, temperature, electrostatic).  


  • Tilt tuning is a simple tuning technique. As the etalon is tilted the FSR changes with the cosine of the angle.   


  • Piezo electric tuning of an air spaced etalon is usually what is meant by the phrase "tunable etalon".  This technique can tune the etalon quickly by changing the size of the air gap.  By changing the length of the air gap by half the wavelength of the light, the transmission peak moves one full FSR.   So if an etalon is used at 532nm then only 266nm of motion is required to tune the etalon.  Small piezo elements can easily move through 10 microns.  Small tunable piezo etalons can be made by using a single hollow tube piezo stack, these are a standard item for us and have a clear aperture of about 4mm.  Larger piezo tunable etalons are made using 3 piezo elements. Although these etalons are more complex to control they have the big advantage that the piezo elements can be subtly tuned to eliminate any residual tilt error between the two mirrors and improve the finesse.