Fiber Optics

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Single Fiber Bundle

Single Fiber bundles are used for in-situ measurements where one bundle brings to the sample the excitation light and a second bundle collects the fluorescence light and diverts it back to the fluorometer detection channel. Compatible with ChronosBH, ChronosDFD, and PC1.

Bifurcated Fiber Bundle

The bifurcated fiber bundle is utilized for in-situ fluorescence measurements. The assembly is made of two separate bundles: one connected to the excitation channel of the spectrofluorometer and the second connected to the emission channel. The two bundles are join in the common leg. The excitation and collection fibers are arranged in the common leg using one of two different patterns. In one pattern, the excitation fibers are located in the middle of the common leg and the collection fibers are located on an outer ring. In a second pattern, the fibers are interdispersed. The selection of each pattern is dictated by the type of experiment.
Bifurcated Fiber Bundle

Chemically Activated Fiber Tip

The fiber optics sensor (FOS), or chemically-activated fiber tip, allows for the measurement to be performed in-situ, which is particularly of interest when the sample to be monitored is remote or is embedded in hazardous conditions (high temperature, toxic, flammable, high voltage, etc...). The accessory can be used to detect the presence of specific molecules inside the body (endoscope), to detect the presence of molecules in bioreactors, or to map the concentration of environmentally sensitive molecular complexes at different depths of the ocean.

The device consists of a fiber that channels using proper optics, the light produced by the spectrofluorometer's laser and carries it to the other end of the fiber, where a specific fluorophore is embedded in a polymeric matrix. The light excites the fluorophore; a portion of fluorescence is carried back through the same fiber to the instrument that monitors its properties (intensity or decay times).

The fiber of about 100 µm in diameter can be up to 250 m long.

Chemically-Activated Fiber Tip and Fiber Optics, Complete with XY Control and Dichroic Mirror

Product Specifications for Fiber Optics

Single Fiber Optic Bundle

Total Number of Fibers
  • To be Specified by Customer
Fiber Core Diameter
  • 150 µm
Fiber Type
  • Silica Core/Silica Clad
Operating Wavelength Range
  • 360 - 700 nm
Fiber Numerical Aperture
  • 0.22
Fiber Bundle
  • Termination: Ferrule
  • Diameter: 2 mm
Excitation Leg Configuration
  • Round: Total diameter of the fibers is about 2 mm
Collecting Leg Configuration
  • Round: The fibers going to the collection leg are randomly mixed with fibers coming from the excitation leg
Length (cm)
  • 180
Sheathing
  • Standard Cabling

Bifurcated Fiber Optics

Total Number of Fibers
  • To be Specified by Customer
Fiber Core Diameter
  • 150 µm
Fiber Type
  • Silica Core/Silica Clad
Operating Wavelength Range
  • 360 - 700 nm
Fiber Numerical Aperture
  • 0.22
Common Leg Termination
  • Ferrule (10 mm x 25 mm long)
Common Leg Configuration
  • Round:
    • Total diameter
  • Patterns:
    • Excitation in the middle and emission on the outside ring
    • Excitation and emission randomly mixed with the collecting fibers
Excitation Leg Configuration
  • Round: Total diameter of the fibers is about 2 mm
Collecting Leg Configuration
  • Round: The fibers going to the collection leg are randomly mixed with fibers coming from the excitation leg
Total Length of Assembly
  • 1.8 m
Length of Common End (without the bifurcation)
  • 1.4 m
Sheathing
  • Standard Cabling

Chemically Activated Fiber Tip and Fiber Optics

Objective
  • Model LUCPlan FLN 20x/0.45 NA (by Olympus)
  • Any RMS-thread objective
Positioning Stage
  • 0.3 mm overall adjustment
Aligning Fiber
  • 0.2 m graded index 62.5 µm Multimode Patch Cable (FC connector)

Product Resources