710/13 nm Nanopede single-band bandpass filter

Semrock Part Number: FBP01-710/13-12.5

IDEX Part Number: FL-436586  /

Semrock

Individual fluorescence bandpass filters that have been optimized for use in a variety of fluorescence instruments. Pair this filter with other Nanopede filters to step through the spectrum in 20 nm Full-Width, Half Max (FWHM) steps and the NIR spectrum in 30 nm FWHM steps. This value approach to filter design provides essential filter performance for detector-based applications.

This filter family is designed for scattered light and point detection applications only, for imaging applications, consider our BrightLine filters.
  • Price Not Available.
  • Each
    US Domestic pricing – contact your local distributor for other currency list prices
  • Price Not Available.
  • 85.00 USD Each
    US Domestic pricing – contact your local distributor for other currency list prices
  • 0.00
    0.00
  • Notify me when available
Optical Specifications Value
Transmission Band 1 Tavg > 93% 703.5 – 716.5 nm
Blocking Band 1 ODavg > 5 330 – 692 nm
Blocking Band 2 OD > 5 405 nm
Blocking Band 3 OD > 5 445 nm
Blocking Band 4 OD > 5 488 nm
Blocking Band 5 OD > 5 532 nm
Blocking Band 6 OD > 5 633 nm
Blocking Band 7 ODavg > 5 728 – 900 nm
Center Wavelength 1 710 nm
Guaranteed Minimum Bandwidth 1 13 nm
FWHM 1 (nominal) 20 nm
General Filter Specifications Value
Angle of Incidence 0 ± 5 degrees
Cone Half-angle 7 degrees
Optical Damage Rating Testing has proven to show no signs of degradation when exposed to at least 6.0 W of power from an unfiltered xenon arc lamp over a 25 mm diameter (corresponding to 1.2 W/cm2) for over 500 hours.
Physical Filter Specifications   Value
Transverse Dimensions (diameter) 12.5 mm
Transverse Tolerance + 0.0 / - 0.1 mm
Filter Thickness (mounted) 3.5 mm
Filter Thickness Tolerance (mounted) ± 0.1 mm
Clear Aperture ≥ 10 mm
Scratch-Dig 80-50
Filter Thickness (unmounted) 2.0 mm
Filter Thickness Tolerance (unmounted) ± 0.1 mm
Exciter/Emitter Orientation Arrow on ring indicates preferred direction of propagation of light.
TopicDescription
Cleaning Optical FiltersInstructions for cleaning hard coated optical filters
Filter ReliabilityCompares the performance and reliability of hard coated filters to traditional soft-coated filters and provides information about the testing standards for Semrock filters
Working with Optical Density Tables to describe the relationship between OD and transmission with tips for quickly calculating OD

Specifications

TopicDescription
Cleaning Optical FiltersInstructions for cleaning hard coated optical filters
Filter ReliabilityCompares the performance and reliability of hard coated filters to traditional soft-coated filters and provides information about the testing standards for Semrock filters
Working with Optical Density Tables to describe the relationship between OD and transmission with tips for quickly calculating OD