metaOPTIX™ STRATA is a range of holographic notch filters in industry standard 1” diameter form factor. These filters offer narrow, high optical density stop bands paired with high transmission in the pass band. This makes them ideally suited to blocking laser sources in fluorescence or Raman spectroscopy instruments.
This metaOPTIX STRATA 532nm, 1″ volume holographic grating is protected within a glass sandwich structure. All air interfaces have a broad band antireflective coating to maximize the out of band transmission. The wavefront distortion of transmitted beam is less than 1λ at 633nm.
The notch wavelength can be tuned by adjusting the angle of incidence. As the angle of incidence is increased, the notch center will blueshift to lower wavelengths. This allows a single notch filter to be used to block a range of wavelengths. Unlike typical dielectric notch filters, the notch center wavelength is the same for p- and s- polarization, even at high angles of incidence.
metaOPTIX is ready for customization, please click here to contact us on how we can tailor metaOPTIX to meet your requirements.
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Are you already using metaOPTIX filters and would like to discuss usability and future development? We’d love to hear from you! Contact firstname.lastname@example.org and we will get back to you as soon as possible for a discussion.
META (Metamaterial Inc.) is a smart materials and photonics company that is changing the way we use, interact, and benefit from light. Through applied physics and advanced design, we are pioneering a new class of multi-functional materials—called metamaterials— which have engineered properties that go beyond what is found in nature.
At META we design and manufacture functional materials that are more sustainable, higher performing and cost less than the competition. These are complex, structured materials that perform special functions, utilizing light and other forms of energy in new and often surprising ways. Our products are designed using algorithms and engineered at microscopic levels, creating novel functional materials that mimic nature and metamaterials with new properties and capabilities that go beyond those found in natural materials.