770 nm blocking edge BrightLine® multiphoton short-pass emission filter

Semrock Part Number: FF01-770/SP-25

IDEX Part Number: FL-009620  /

Semrock
Ultrahigh-performance multiphoton fluorescence filters that accommodate a wide range of fluorescence dyes. Designed to be a fixed component in any multiphoton or nonlinear (harmonic-generation) microscope, so that when desired individual, narrower bandpass filters can be added without having to worry about the near-IR blocking of these filters. The transmission bands of these short-pass emitters are so wide, they appear clear at normal incidence.
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Optical Specifications Value
Transmission Band 1 Tavg > 90% 380 – 740 nm
Blocking Band 1 ODavg > 6 770 – 1400 nm
Edge Wavelength 1 747 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) 25 mm
Transverse Tolerance + 0.0 / – 0.1 mm
Filter Thickness (mounted) 3.5 mm
Filter Thickness Tolerance (mounted) ± 0.1 mm
Clear Aperture ≥ 22 mm
Scratch-Dig 60-40
Filter Thickness (unmounted) 2.0 mm
Filter Thickness Tolerance (unmounted) ± 0.1 mm
Orientation Orientation does not affect performance; therefore there is no arrow on the ring to denote a preferred orientation

FF775-Di01-25x36

FL-007101 / 0

Out of Stock Backordered In Stock
  • Dichroic Beamsplitter with edge at 775 nm
  • Ravg > 98% 350 – 760 nm
  • Tavg > 93% 790 – 1600 nm
  • Tavg p-pol > 93% 790 – 1600 nm
  • Tavg s-pol > 93% 790 – 1600 nm

1 of 1

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
Laser Damage ThresholdProvides information for calculating laser damage threshold for pulsed and continuous wave lasers
Working with Optical Density Tables to describe the relationship between OD and transmission with tips for quickly calculating OD
BrightLine Multiphoton Fluorescence Filters Describes how multiphoton microscopy works and how optical filters for multiphoton fluorescence differ from traditional fluorescence filters.
Journal Article
TopicDescription
Optical Filters for Multiphoton MicroscopyCraig Hodgson, PhD, and Turan Erdogan, PhD, Semrock, Inc., BioPhotonics, November 2006
Describes how multiphoton microscopy works, several current applications and how optical filters for multiphoton fluorescence differ from traditional fluorescence filters
Application
TopicDescription
Multiphoton MicroscopyAn overview of multiphoton microscopy, including solutions from Semrock and additional learning resources.

Specifications

FF775-Di01-25x36

FL-007101 / 0

Out of Stock Backordered In Stock
  • Dichroic Beamsplitter with edge at 775 nm
  • Ravg > 98% 350 – 760 nm
  • Tavg > 93% 790 – 1600 nm
  • Tavg p-pol > 93% 790 – 1600 nm
  • Tavg s-pol > 93% 790 – 1600 nm

1 of 1

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
Laser Damage ThresholdProvides information for calculating laser damage threshold for pulsed and continuous wave lasers
Working with Optical Density Tables to describe the relationship between OD and transmission with tips for quickly calculating OD
BrightLine Multiphoton Fluorescence Filters Describes how multiphoton microscopy works and how optical filters for multiphoton fluorescence differ from traditional fluorescence filters.
Journal Article
TopicDescription
Optical Filters for Multiphoton MicroscopyCraig Hodgson, PhD, and Turan Erdogan, PhD, Semrock, Inc., BioPhotonics, November 2006
Describes how multiphoton microscopy works, several current applications and how optical filters for multiphoton fluorescence differ from traditional fluorescence filters
Application
TopicDescription
Multiphoton MicroscopyAn overview of multiphoton microscopy, including solutions from Semrock and additional learning resources.