Fluorescence Longpass Dichroic Filters
Fluorescence Longpass Dichroic Filters
Newport’s High Performance Fluorescence (HPF™) longpass dichroic filters for fluorescence microscopy have been manufactured to provide maximum performance using several key design features including exceptionally high transmission in the transmission band, maximized reflectance in the reflectance band, high-precision optical glass substrates, and spectral specifications providing maximum image brightness and minimum background.
- Patented Stabilife® Hard Coatings
- Lowest autofluorescence
- Maximum transmission
- Optimized optical fabrication for brilliant imaging
- Superior field life See All Features
| Compare | Description | Drawings, CAD & Specs | Avail. | Price | ||
|---|---|---|---|---|---|---|
 | HPD400 Fluorescence Longpass Dichroic FiltersFluorescence Dichroic Filter, 25.5 x 36 mm, 425-515 nm Trans. | |||||
| HPD410 Fluorescence Longpass Dichroic FiltersLongpass Dichroic Filter, Fluorescence, 25.5 x 36 mm, 425-515 nm Trans. | |||||
| HPD440 Fluorescence Longpass Dichroic FiltersLongpass Dichroic Filter, Fluorescence, 25.5 x 36 mm, 454-495 nm Trans. | |||||
| HPD455 Fluorescence Longpass Dichroic FiltersLongpass Dichroic Filter, Fluorescence, 25.5 x 36 mm, 492-510 nm Trans. | |||||
| HPD480 Fluorescence Longpass Dichroic FiltersLongpass Dichroic Filter, Fluorescence, 25.5 x 36 mm, 487-545 nm Trans. | |||||
| HPD490 Fluorescence Longpass Dichroic FiltersLongpass Dichroic Filter, Fluorescence, 25.5 x 36 mm, 520-570 nm Trans. | |||||
| HPD495 Fluorescence Longpass Dichroic FiltersLongpass Dichroic Filter, Fluorescence, 25.5 x 36 mm, 512-570 nm Trans. | |||||
| HPD505 Fluorescence Longpass Dichroic FiltersLongpass Dichroic Filter, Fluorescence, 25.5 x 36 mm, 512-570 nm Trans. | |||||
| HPD515 Fluorescence Longpass Dichroic FiltersLongpass Dichroic Filter, Fluorescence, 25.5 x 36 mm, 520-565 nm Trans. | |||||
| HPD520 Fluorescence Longpass Dichroic FiltersLongpass Dichroic Filter, Fluorescence, 25.5 x 36 mm, 531-750 nm Trans. |
Features
Superior Stabilife® Coating Technology
HPF™ fluorescence filters are manufactured using our patented Stabilife® coating technology. They are manufactured using two patented processes for the deposition of metal oxide thin film optical coatings: Reactive Ion Plating (RIP) and Hybrid Plasma Enhanced Deposition (HPED). Both processes yield highly dense, thin film coatings with extraordinary hardness, abrasion resistance, and adhesion to the substrate. Newport's Stabilife processes have been in full-scale production at our coating facility in Franklin, Massachusetts since the early 1990s.
Higher Film Density & Maximized Spectral Stability
For demanding applications such as fluorescence detection, wavelength stability is absolutely critical to insure dependable results. Newport's fluorescence filters with Stabilife coating technology have much higher spectral stability than competitors. One of the critical factor affecting the spectral stability of an optical coating is film density. Unlike competitor's unstabilized metal oxide thick film coating with less film density which typically contributes to environmentally induced spectral shift of 2-5%, Newport's Stabilife coatings have a much higher density and lower void ratio and are therefore less affected by water absorption. They typically exhibit total wet-to-dry shifts of less than 0.02% of wavelength.
Minimized Spectral Shifting for Temperature Variations
Stabilife coatings are typically 5 to 10 times less sensitive to thermal variation than un-stabilized metal oxide films as a result of film densification. Temperature change functions are a catalyst for moisture migration in thin films having a significant volume of voids. When un-stabilized films are exposed to high temperatures, moisture migrates out of film voids contributing to the wavelength change discussed earlier. The high film density and reduced permeability resulting from the Stabilife processes reduces this effect providing the maximum spectral stability available for all types of precision coatings including bandpass, dichroic, edge, notch and polarizer coatings.
Resources
Literature
Fluorescence Filters Brochure(2.1 MB, PDF)
