Search for "Anamorphic Shaping of Laser Beams"
Amagnetic Titanium Laser Beam Couplers series 60SMS for coupling into single-mode and polarization-maintaining fiber cables
for coupling into single-mode and polarization-maintaining fiber cables
for coupling into single-mode and polarization-maintaining fiber cables
- Elliptical Gaussian beam profile
- Low noise
- Circular Gaussian beam profile
- Low noise
- Semi-telecentric line
- Gaussian intensity distribution
- Short line length
- Low noise
- Semi-telecentric line
- Uniform intensity distribution
- Long line length
- Low noise
- Line with a fan angle
- Gaussian intensity distribution
- Low noise
- Line with a fan angle
- Uniform intensity distribution
- Low noise
- Elliptical Gaussian beam profile
- RS232 interface
- Circular Gaussian beam profile
- RS232 interface
- Semi-telecentric line
- Uniform intensity distribution
- Long line length
- RS232 interface
- Semi-telecentric line
- Gaussian intensity distribution
- Short line length
- RS232 interface
- Line with a fan angle
- Gaussian intensity distribution
- RS232 interface
- Line with a fan angle
- Uniform intensity distribution
- RS232 interface
- Elliptical Gaussian beam profile
- Circular Gaussian beam profile
- Semi-telecentric line
- Uniform intensity distribution
- Long line length
- Semi-telecentric line
- Gaussian intensity distribution
- Short line length
- Line with a fan angle
- Gaussian intensity distribution
- Line with a fan angle
- Uniform intensity distribution
- Elliptical Gaussian beam profile
- Circular Gaussian beam profile
- Semi-telecentric line
- Uniform intensity distribution
- Long line length
- Semi-telecentric line
- Gaussian intensity distribution
- Short line length
- Line with a fan angle
- Gaussian intensity distribution
- Line with a fan angle
- Uniform intensity distribution
- Elliptical Gaussian beam profile
- Circular Gaussian beam profile
- Semi-telecentric line
- Uniform intensity distribution
- Long line length
- Semi-telecentric line
- Gaussian intensity distribution
- Short line length
- Line with a fan angle
- Gaussian intensity distribution
- Line with a fan angle
- Uniform intensity distribution
- Elliptical Gaussian beam profile
- Circular Gaussian beam profile
- Semi-telecentric line
- Uniform intensity distribution
- Long line length
- Semi-telecentric line
- Gaussian intensity distribution
- Short line length
- Line with a fan angle
- Gaussian intensity distribution
- Line with a fan angle
- Uniform intensity distribution
- Rotationally symmetric, Gaussian beam profile
- Semi-telecentric line
- Uniform intensity distribution
- Long line length
- Semi-telecentric line
- Gaussian intensity distribution
- Short line length
- Line with a large fan angle
- Gaussian intensity distribution
- Line with a small fan angle
- Gaussian intensity distribution
- Line with small fan angle
- Uniform intensity distribution
- Micro Line Generator, fan angle
- Uniform intensity distribution
- Collimator
- Large circular Gaussian beam profile
- Low noise
- Collimator
- Large elliptical Gaussian beam profile
- Low noise
- Collimator
- Elliptical Gaussian beam profile
- Low noise
- Collimator
- Large circular Gaussian beam profile
- Collimator
- Large elliptical Gaussian beam profile
- Collimator
- Elliptical Gaussian beam profile
- Compact Collimator
- Elliptical or circular Gaussian beam profile
- Compact Collimator
- Elliptical Gaussian beam profile
- Macro Focus Generator
- Circular beam profile
- Extended depth of focus
- Low noise
- Micro Focus Generator
- Elliptical Gaussian beam profile
- Low noise
- Laser Macro Focus Generator
- Rotationally symmetric beam profile
- Extended depth of focus
- Low noise
- Micro Focus Generator
- Rotationally symmetric, Gaussian beam profile
- Low noise
- Semi-telecentric Macro Line
- Uniform intensity distribution
- Constant line length 15 mm
- Extended depth of focus
- Low noise
- Semi-telecentric Micro Line
- Uniform intensity distribution
- Constant line length 15 mm
- Low noise
- Semi-telecentric Macro Line
- Gaussian intensity distribution
- Constant line length ca. 2 mm
- Extended depth of focus
- Low noise
- Semi-telecentric Micro Line
- Gaussian intensity distribution
- Constant line length ca. 2 mm
- Low noise
- Semi-telecentric Macro Line
- Gaussian intensity distribution
- Constant line length ca. 4.8 mm
- Extended depth of focus
- Low noise
- Semi-telecentric Micro Line
- Gaussian intensity distribution
- Constant line length ca. 4.8 mm
- Low noise
- Macro Line, large fan angle
- Gaussian intensity distribution
- Extended depth of focus
- Low noise
- Macro Line, small fan angle
- Gaussian intensity distribution
- Extended depth of focus
- Low Noise
- Micro Line, large fan angle
- Gaussian intensity distribution
- Low noise
- Micro Line, small fan angle
- Gaussian intensity distribution
- Low noise
- Macro Line Generator, small fan angle
- Uniform intensity distribution
- Extended depth of focus
- Low noise
- Micro Line, small fan angle
- Uniform intensity distribution
- Thin lines
- Low noise
- Compact Laser Macro Focus Generator
- Circular beam profile and
- Extended depth of focus
- Compact Laser Micro Focus Generator
- Elliptical Gaussian beam profile
- Macro Focus Generator
- Circular beam profile
- Extended depth of focus
- Micro Focus Generator
- Elliptical Gaussian beam profile
- Compact Laser Micro Focus Generator
- Rotationally symmetric, Gaussian beam profile
- Laser Macro Focus Generator
- Rotationally symmetric beam profile
- Extended depth of focus
- Micro Focus Generator
- Rotationally symmetric, Gaussian beam profile
- Semi-telecentric Macro Line
- Uniform intensity distribution
- Constant line length 15 mm
- Extended depth of focus
- Semi-telecentric Micro Line
- Uniform intensity distribution
- Constant line length 15 mm
- Semi-telecentric Macro Line
- Gaussian intensity distribution
- Constant line length ca. 2 mm
- Extended depth of focus
- Semi-telecentric Micro Line
- Gaussian intensity distribution
- Constant line length ca. 2 mm
- Semi-telecentric Macro Line
- Gaussian intensity distribution
- Constant line length ca. 4.8 mm
- Extended depth of focus
- Semi-telecentric Micro Line
- Gaussian intensity distribution
- Constant line length ca. 4.8 mm
- Compact semi-telecentric Macro Line
- Gaussian intensity distribution
- Constant line length ca. 2 mm
- Extended depth of focus
- Compact semi-telecentric Micro Line
- Gaussian intensity distribution
- Constant line length ca. 2 mm
- Compact semi-telecentric Macro Line
- Gaussian intensity distribution
- Constant line length ca. 4.8 mm
- Extended depth of focus
- Compact semi-telecentric Micro Line
- Gaussian intensity distribution
- Constant line length ca. 4.8 mm
- Macro Line, large fan angle
- Gaussian intensity distribution
- Extended depth of focus
- Macro Line, small fan angle
- Gaussian intensity distribution
- Extended depth of focus
- Micro Line, large fan angle
- Gaussian intensity distribution
- Micro Line, small fan angle
- Gaussian intensity distribution
- Compact Macro Line, large fan angle
- Gaussian intensity distribution
- Extended depth of focus
- Compact Micro Line, large fan angle
- Gaussian intensity distribution
- Compact Micro Line, small fan angle
- Gaussian intensity distribution
- Extended depth of focus
- Compact Micro Line, small fan angle
- Gaussian intensity distribution
- Micro Line Generator, small fan angle
- Uniform intensity distribution
- Extended depth of focus
- Micro Line, small fan angle
- Uniform intensity distribution
- Thin lines
- Macro Line Generator, fan angle
- Uniform intensity distribution
- Extended depth of focus
- Micro Line Generator, fan angle
- Uniform intensity distribution
- Elliptical Gaussian beam profile
- Circular Gaussian beam profile
- Semi-telecentric line
- Uniform intensity distribution
- Long line length
- Semi-telecentric line
- Gaussian intensity distribution
- Short line length
- Line with a fan angle
- Gaussian intensity distribution
- Line with a fan angle
- Uniform intensity distribution
How to Transforms a Collimated Laser Beam with Elliptical Cross-section into a Circular Beam or Vice Versa.
Laser triangulation, laser light sectioning, particle measurement etc.
Stability measurements during temperature cycling and how incorrect adjustment affects the coupling efficiency
What wavelengths are available for diode based laser modules?
Line width definition
Selection of focal length and effective coupling diameter
Working principle and attenuation.
How to use the SK010PA with PM fibers and for free beam applications.
Laser diode based laser sources for high precision measurement and inspection systems
Special features of type 13LR and 13LRM Laser Modules
When do they appear and how to prevent them
Line length and working distance definition
Fan angle vs. semi-telecentric.
Features of Laser Modules with RS232 interface
Low noise Laser Modules vs. regular Laser Modules
Analyzing past climates using the Large Area Scan Microscope.
Solved cut by cut – new method for automatic cross-cut evaluation
Evaluate corrosion test panels quickly and objectively.
Applications of Line Scan Cameras
Definition, formulae, and more detailed explanations.
Selection of focal length or determination of the resulting beam diameter
Series 51nano
Typical Spectra, graded vs step index, etc.
Applications of Line Scan Cameras
Astigmatism Correction and beam shaping using anamorphic beam-shaping optics type 5AN
Line geometry, intensity distribution, definition of line length and working distance, definition of line width and machine vision applications.
Using anamorphic optics to increase coupling efficiency
Astigmatism Correction using anamorphic beam-shaping optics type 5AN
Advantages of using beam splitters and combiners with wedge-shaped substrate
Beam parameter prodict and étendue
Selection of focal length
Cooling and trapping atoms using specially developed fiber collimators
Sources of loss when fiber-coupling
Differences between aspheres, achromats and apochromats
Spectral sensitivity of different line sensors
Details about the specific features of PCF fibers.
Electronics details
Electronics details
Details about the 51nano exhibition setup.
Electronic features for electronics type H
Electronic features for electronics type HP
Comparison of a low noise laser source to a conventional laser source
How to connect the self-supporting multicube system
Working principle of the Faraday isolator
How to characterize PM fibers.
Special features of titanium connectors
What are end caps and why should I use them?
How to characterize PM fibers.
Why are some fibers polarization-maintaining?
Why is it best to define an effective numerical aperture NAe2?
Practical collimation tips for single-mode, polarization-maintaining and multimode fibers
Practical collimation tips for single-mode, polarization-maintaining and multimode fibers
Comparison of key features
Making single-mode fiber coupling smooth and permanent
Industry-grade fiber coupling for different well-esablished laser systems
Selection of focal length, estimated coupling efficiency
All about fibercoupling.
Reasons for a pre-angled coupling axis
Electronic features for electronics type B
Electronic features for electronics type S
Electronic features for electronics type PS
Electronic features for electronics type CS
Electronic features for electronics type HP
Electronic features for electronics type H
Electronic features for electronics type P
Electronic features for electronics type C
Overview over all Electronics Types
Straight and angled cable exit
Gaussian intensity distribution and uniform intensity distribution along the laser line
What does Micro or Macro Laser mean?
All you need for image acquisition and analysis
High resolution imaging and width measurement of stents.
How TDI Line Scan Cameras work and when to use them.
Definition, formulae, and more detailed explanations.
Definition, formulae, and more detailed explanations.
Definition, formulae, and more detailed explanations.
Definition, formulae, and more detailed explanations.
Definition, formulae, and more detailed explanations.
Definition, formulae, and more detailed explanations.
Definition, formulae, and more detailed explanations.
Definition, formulae, and more detailed explanations.
Definition, formulae, and more detailed explanations.
Definition, formulae, and more detailed explanations.
Magnification, calculation of lens extension, tube length, focal length, field angle, depth of focus, F-Number, edge intensity and diffration limit
Evaluation of correct focus
How to chose between GigE, GigEVision, USB3.0 and CameraLink.
Details about the different illumination techniques.
Color Calibration of RGB cameras
Reasons for synchronization and definition of different synchronization modes
Definition and comparison to conventional area cameras
How to create an image, definition of line frequency, and how to improve an image
Introduction and advantages of Line Scan Cameras
How to get light into quantum computers
Rugged, modular and fiber coupled beam splitting and combining units
Compatability to other cage systems
Details about the specific features of PCF fibers.
How to correctly insert a fiber into the receptacle of a fiber coupler
FC, AVIM and E2000
Why is there a minimum cable length?
Details on the structure of 3 mm and 900 µm fiber cables.
Stimulated Brillouin Scattering and fiber end-face effects
Pure silica core fibers (Si)
Overlap and coupling efficiency when using fibers of different NA, different Mode field or different focal lengths
How do MFD and NA vary with wavelength?
Definition of mode field diameter MFD
Defintion of cut-off wavelength and the fiber working range
Typical values for the effective numerical aperture
Mounting options for Fiber Collimators series 60FC-T, 60FC-Q, and 60FC-L with an outer diameter ⌀ 32/34.5 mm
Mounting options for Fiber Collimators series 60FC and 60FC-SF
Calculation of spot diameter
Collimated beam diameter and divergence
What is the depth of focus of my spot?
Calculation of spot diameter for single-mode fibers
Beam divergence of a collimated beam exiting a single-mode fiber
How measured fiber parameters help to choose the best coupling and collimation optics.
Approximate constant beam diameter across a certain working range
Beam divergence of a collimated beam exiting a single-mode fiber
How measured fiber parameters help to choose the best coupling and collimation optics.
What is new and how to use them.
Why you should tighten the grub screw for the fiber ferrule.
FC PC, FC APC etc.
Why do you need shading correction and how to use white balance
What is blooming and how to correct it
When to use core-aligned single-mode fibers
What is an RGB PM fiber?
Attenuation of single-mode and PM fibers depending on wavelength.
Fiber-coupled laser sources and coupling systems
Fiber-coupled low coherence laser sources series 51nano
Accessories for all laser modules
LNC Laser Modules that produce spots
LNC Laser Modules that produce lines
Laser Modules of all series with low noise and low coherence
Laser Modules with RS232 interface that produce spots
Laser Modules with RS232 interface that produce lines
Infrared Laser Modules that produce spots
Infrared Laser Modules that produce lines
Infrared Laser Modules
Wavelengths 701-1660nm
Red Laser Modules that produce spots
Red Laser Modules that produce lines
Red Laser Modules
Wavelengths 620nm-700 nm
Green Laser Modules that produce spots
Green Laser Modules that produce lines
Green Laser Modules
Wavelengths 489-560 nm
Blue laser modules that produce spots
Blue laser modules that produce lines
Blue Laser Modules
Wavelengths 405-488 nm
Laser modules that produce spots
Laser modules that produce lines
Product configurator for all Laser Line Generators
What we do every day to save resources
Out team needs reinforcement!
WEEE Registration
Configurator for all LNC Laser Focus Generators
Configurator for all Laser Focus Generators with RS232 interface
Configurator for all infrared Laser Focus Generators
Configurator for all red Focus Generators
Red Laser Focus Generators with elliptical beam profile
Red Laser Focus Generators with circular beam profile
Configurator for all green Laser Focus Generators
Configurator for all blue Laser Focus Generators
Laser modules that produce collimated beams
Configurator for all Laser Focus Generators
Product configurator for all Laser Focus Generators and Collimators