The fiber collimators series 60FC is designed for collimating radiation
exiting optical fiber cables with high pointing stability. They can also be used
in reverse-mode as fiber incouplers. They are suitable for single-mode and
polarization-maintaining fiber cables leading to collimated beams with a Gaussian
intensity profile.
Please note that for multimode collimation the intensity profile is not Gaussian
and depends on certain fiber and radiation properties.
The features of the coupler type 60FC include:
Optics
The
asphere
with focal length 2.7 mm is designed for collimating
single wavelengths and are corrected for spherical aberration. It is AR-coated
from 1050 - 1550 nm. The focus position varies strongly with wavelength
so that the collimator has to be recollimated after any changes to the wavelength.
Due to the manufacturing process of molded aspheres the
lens performance
is limited. This lens type is suitable for UHV applications.
Adjustment of focus
The distance between fiber end-face and collimating optics is adjusted by means
of an eccentric key. The lens does not rotate when adjusting the focus. The final
focus setting is locked by means of two radially arranged clamping screws.
Additionally attachment optics of series 60FC can be mounted to the
front of the collimator.
Optimum lens performance
The angled polish of connectors of type APC is considered by a
pre-angled mechanical coupling axis that compensates the beam deflection and
you can use the lens centrically. This minimizes aberrations simply resulting
from a non-ideal beam path through the lens.
Connector Type
The fiber collimator is equipped with a FC-APC type receptacle.
Because of the spring-loaded fiber ferrule the fiber collimator has an additional grub
screw to increase pointing stability.
Material
The fiber collimator type 60FC is made from amagnetic titanium. The relative
permeability is near 1 (µr = 1.00005) making it almost transparent to magnetic fields.
The linear coefficient of thermal expansion is close to that of the optics so that a
thermal stability over a larger temperature range can be expected.
Mounting
The collimator can be placed into a standard mirror mount using the corresponding
adapters.