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trending in optics

Ultra-Thin
Longpass
and Shortpass Filters

February 2017 | See all Trending in Optics Topics

Everix Filters

Visual of filters “flexing” between the gentle force of tweezers

Ultra-Thin Longpass and Shortpass Filters are designed and constructed out of ultra-thin, flexible polymers and dyes. These filters are scratch insensitive and as durable as most industry hard oxide coatings. Comprised of hundreds to thousands of polymeric and dyed sub-layers, these filters can achieve high wavelength selectivity across the visible and near-infrared spectrum. Due to the low cost, low weight, and thin and flexible nature, these filters are perfect for high volume consumable applications such as vision and electronics or point of care devices for small and compact diagnostics equipment.

Key Features

  Flexible Material Design

  350nm to 1600nm Spectral Range

  Notch, Edge, Longpass, Shortpass, and Bandpass Filter Design Capabilities

  Multi-Notch and Multi-Bandpass Filters Available

  Scratch Insensitive

  OD 2 Absolute Design, OD 4 Blocking Achievable

  >90% Achievable Transmission

  Ultra-thin Design (200-500µm Thickness)

Technical Diagrams

RHCP - Right-Handed Circular Polarization

  Traditional Filter Hard Coated Filter Ultra-Thin Filters
Substrate: Stack of Glass, Metal, Plastic Single Piece of Glass Stack of Ultra-Thin Polymers
Transmission (VIS only): 75% (approx.) >90% >90%
Clear Aperture: >80% >80% >90%
Thickness: 5mm >1mm 200 - 500µm
Blocking, Optical Density: >OD 4 average >OD 6 absolute >OD 4 average
Temperature Stability: Medium High Medium
Cut-on Steepness: >3% <1% 2%
Cut-on Tolerance: >3% <1% 2%
Price: $$ $$$ $

Figure 1: Comparison of a Traditional Filter, Hard Sputtered Filter, and an Ultra-Thin Filter

RHCP - Right-Handed Circular Polarization

Figure 2: Design and Construction of an Ultra-Thin Filter

FAQ's

FAQ  What are Ultra-Thin Filters?
Ultra-Thin Filters are comprised of all aspects of hard, glass filters combined with a flexible polymer material. Flexible filters are lighter in weight, thinner in size, and allow for a moderate level of flexibility to conform to concave or convex surfaces, all while maintaining optical performance of industry standard glass filters.
FAQ  How are Ultra-Thin Filters manufactured?
Ultra-Thin Filters are manufactured with a unique process combining features from plastic extrusion and fiber drawing processes.
FAQ  What are the advantages of Ultra-Thin Filters?
  • Able to conform to both flat and curved substrates
  • Simple cutting on customer site using scissors, blades, or lasers
  • Ultra-thin for compactness and minimized optical path length without a need for separate mounts
  • Simple cutting to complex shapes and small dimensions down to 0.5mm
  • Shatter-free all-plastic design
  • Can be made from very flexible (<100µm) to relatively rigid (~500µm)
FAQ  Are there any disadvantages of Ultra-Thin Filters?
  • Operating temperature limited to room temperature ±30°C
  • Only suitable to low and average power applications
  • Plastic degradation with elongated exposure to intense UV light or heat, although filters are made of optical-grade polymers used in solar industry too
  • Slightly higher wavefront error compared to hard oxide filters: more rigid filters (200 - 500µm) providing less error than more flexible ones (<200µm)
FAQ  What is the easiest way to customize the size of a Ultra-Thin Filters?
The easiest way to customize the size of a Ultra-Thin Longpass Filters is by using a CO2 laser, precision knife, sharp scissors, or sharp razor blades depending on the size and shape of the filter.
FAQ  How should I clean a Ultra-Thin Filters?
The same cleaning instruction for polymer optical components can be used on Ultra-Thin Filters. Using deionized water, water/soap, only certain chemicals, not all solvents, and preferably abrasion-free solutions are recommended.
FAQ  How can I mount Ultra-Thin Filters?
Ultra-Thin Filters can be mounted using UV-curable (or regular) optical adhesives. Optically clear adhesives, such as 3M OCA series, can be laminated on filters and have the ability of manually using a roller with soft surface for application.
FAQ  Are these filters available in OEM quantities?
Yes, but only for certain designs and wavelength ranges. The manufacturing technique is still relatively new, but volume requests are welcome. Please contact us today to discuss these capabilities.
FAQ  What wavelengths are available?
The Ultra-Thin Filters are a visible design featuring cut-on wavelengths of: 450nm, 500nm, 550nm 600nm, 650nm, and 700nm.
Everix Ultra-Thin Longpass Filters

Everix Ultra-Thin Longpass Filters

Everix Ultra-Thin Longpass Filters combine high performance and low cost in a new class of thin film interference filters that are flexible, scratch insensitive, and ultra-thin (200 - 500μm). These filters feature cut-on wavelengths in the visible range with cut-on tolerances of ±3% typical and >85% average transmission. The flexible extruded thin film filters are complex multilayer filters, which excel across a variety of needs, including longpass, edge, and notch filters. Everix Ultra-Thin Longpass Filters are ideal for demanding vision and medical technology applications.

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