Silicon Lenses

For more than 40 years, Sil'tronix Silicon Technologies produces its own monocrystalline silicon ingot in order to provide the highest quality for photonic applications. 


The whole products are made internally within our own factory in order to provide the flexibility requested regarding the application. We use exclusively pure silicon (9N) in order to maintain a reliable and qualitative consistency. Our purpose is to make high value products regarding individual specification to meet every user's requirement with the highest quality level.

Optical grade Silicon is normally specified with a resistivity of 5 to 40 ohm-cm for best transmission about 10 μm. Silicon windows has a further pass band 30 to 100 microns which is effective only in very high resistivity material. 

Sil’tronix ST capabilities for Silicon lenses

Sil’tronix is growing its own silicon ingots by Czochralski pulling techniques (CZ). This pulling technic produces a Silicon which contains some oxygen, causing an absorption band at 5.8, 9.1 and 19.4 microns. To avoid this, Float Zone (FZ) material can be supplied which does not have this absorption.

Our monocrystalline silicon optical windows is frequently used for laser mirrors and diffuser platethanks to its high thermal conductivity and low density. Our products are also useful as a transmitter in the 20 micron range and also are largely employed as targets in neutron physics experiments. 

Typical applications for Silicon lenses

  • XRD (X-ray diffraction analysis)
  • SEM (scanning electron microscope)
  • AFM (atomic force  microscope)
  • FTIR infrared
  • Fluorescence spectroscopy analysis 
  • Synchrotron sample carrier radiation experiment 
  • Molecular beam epitaxial growth substrate
  • Very high resistivity material can be supplied on special order, particularly for Tera Hertz applications.

Standard Optical windows double side polished






0,5 to 5 mm












General Tolerances

  • Diameter: +/- 0.1 mm
  • Thickness: +/- 0.1 mm
  • Parallelism: 30 µm
  • Planarity: 1.5 µm
  • Crystal orientation: +/- 1.5 °

As Sil’Tronix ST is a silicon product custom manufacturer, we would be pleased to quote you to your exact specifications (diameter, thickness, tolerance or even crystal orientation)

More information about our silicon optical windows

Sil’Tronix ST Silicon is an ideal material for many of mid-wave IR (MWIR) applications because of its optical properties, and its value is enhanced even more by its environmental durability, light weight, thermal stability, and natural abundance.

Birefringence can degrade IR imaging performance, and silicon has an advantage here, too. Crystals with cubic crystalline structure exhibit no birefringence while non-cubic crystals will exhibit birefringence. Silicon is cubic in nature and will not exhibit birefringence.

Durability is an often overlooked aspect when specifying MWIR applications. Most IR transmissive materials are soft, brittle, and water soluble, which can be limiting depending on the application. Although transmission is the most important material property, MWIR applications can take advantage of silicon’s high environmental durability. 

Weight sensitivity is also of particular concern in many IR imaging applications, especially if the device will be worn by the end user. The most popular IR materials, germanium and zinc selenide, are dense and add significant weight to the system. Silicon has a lower density (2.33g/cm3) making it ideal for weight-sensitive applications.

Thermal stability is another key consideration in MWIR applications. The change in index with respect to temperature of most IR materials is orders of magnitude higher than those of visible glasses. Silicon is thermally stable, characterized by a low dn/dT, particularly in respect to germanium.

Commercial applications of MWIR technology tend to be more cost-sensitive than defense applications. Due to its natural abundance in comparison to other IR materials, silicon is significantly cheaper, particularly as size increases. For example, a comparably-sized germanium window can be 2-3X more expensive.


Silicon wafer stock


Silicon wafer configurator


SOI wafer configurator



Brochure Silicon wafers.pdf application/pdf

Brochure Thin silicon wafers.pdf application/pdf

Brochure Additional layers.pdf application/pdf

Brochure Services.pdf application/pdf