AdlOptica Optical Systems GmbH

Booth number 75C14

www.adloptica.com

About us

AdlOptica GmbH works in field of high efficient Laser Beam Shaping optics. Results of multi-year developments are families of optical systems piShaper and foXXus, today more than 60 models: almost 100% efficiency, spectrum from UV to IR, power from mW to multi-kW, CW and pulse lasers, achromatic design, laser spots from few microns to meters.

The piShaper and foXXus find applications in industrial laser technologies like sheet metal cutting, welding, cladding, drilling, scribing, micromachining, cutting of brittle materials, heat treatment, as well as in various scientific techniques of spectroscopy, ablation, laser heating in geophysics, building high power short pulse lasers, confocal microscopy, various life science fluorescence techniques.

Other expertise of AdlOptica is in fields of laser equipment for printing industries, holography, interferometry, optical system design; the company locates in Adlershof, Berlin, Germany's leading science and Technology Park.

Products and services

High efficient versatile Laser Beam Shaping optical systems piShaper and multi-focus optics foXXus and quattroXX, numbering today more than 80 models: 

  • almost 100% efficiency, 
  • spectrum from UV to IR, 
  • power from mW to multi-kW, 
  • CW and pulse lasers, 
  • achromatic design, 
  • laser spots from few microns to meters, 
  • low sensitivity to misalignment.


Applications in various industrial laser technologies: Selective Laser Melting, sheet metal cutting, welding, cladding, heat treatment, drilling, scribing, micromachining, cutting of brittle materials, nano-structuring, as well as in scientific techniques of spectroscopy, ablation, laser heating in geophysics, building high power short pulse lasers, FEL, confocal microscopy, various life science fluorescence techniques, interferometry, holography. Other expertise of AdlOptica is in optical system design.

piShaper - high efficient laser beam shaping systems

Versatile beam shaping optics:
• almost 100% efficiency,
• spectrum from UV to IR,
• power from mW to multi-kW,
• CW and pulse lasers,
• achromatic design,
• laser spots from few microns to meters,
• low sensitivity to misalignment.

Applications: welding, heat treatment, drilling, micromachining, spectroscopy, ablation, laser heating in geophysics, optics of high power short pulse lasers, FEL, microscopy, interferometry, holography.

Further reading

Focal-piShaper - high efficient laser beam shaper for micromachining

Versatile beam shaping optics for micromachining:
• almost 100% efficiency,
• spectrum from UV to IR,
• power from mW to multi-kW,
• CW and pulse lasers,
• laser spots from few micrometers,
• simplicity of alignment.

Applications: Selective Laser Melting, cutting, microwelding, drilling, micromachining, spectroscopy, ablation, laser heating in geophysics, microscopy, interferometry.

Further reading

foXXus - multi-focus optics

foXXus - optics with multiple focuses along axis. This beam shaping method re-distribute energy along axis, extends effective depth of field, improves laser applications. Properties:
• almost 100% efficiency
• adjustable number of focuses
• NA up to 0.8

Lasers:
• power from mW to multi-kW
• CW and pulse
• from UV to IR
• TEM00 and multimode
• easy alignment and integration.

Applications: cutting of glass, sapphire, microprocessing, sheet metal cutting, welding, selective laser etching.

Further reading

Address
AdlOptica Optical Systems GmbH
Rudower Chaussee 29
12489 Berlin
Germany

Phone: +49 30 56590888-0
Fax: +49 30 56590888-1
Internet: www.adloptica.com
E-mail: Send message

Contact person

Alexander Laskin
Project Manager
Phone: +49 30 56590888-0
E-mail: Send message

News & Innovations

quattroXX - multi-focal beam shaping optics for multi-kW lasers

Laser beam shaping by splitting laser energy and focusing in multiple focuses by quattroXX optics is developed for material processing by multi-kW fiber lasers or fiber-coupled lasers: welding, cladding, brazing. Focusing in 4 separate focuses with variable energy balance and geometrical layouts (square, rhomb, line) is flexible tool to optimize process conditions by doughnut-like spots, pre- and post-heating of processed area to reduce spatter and bubbles. Properties:

  • lossless energy re-distribution
  • TEM00 or multimode lasers
  • wide spectrum
  • high resistance to multi-kW CW or pulse lasers
  • reduced thermal focus shift.

As afocal optical system the quattroXX optics locates between collimator and focusing lens, in case of scanning optics before the scanner. Due to low sensitivity to misalignments and compact design the quattroXX can be quickly, easily and simply integrated in already existing process heads.


Further reading
aplanoXX - aberration-free high NA focusing in transparent media
Compensation of spherical aberration induced by high NA focusing in transparent media like glass, sapphire, SiC is important function of objectives aplanoXX of patented design developed for laser microprocessing applications of sapphire dicing in LED manufacture, nanostructuring in fused silica for optical data storage and recording polarization converters; the aberration-free high NA focusing is also important in various types of microscopy. The novel optical design approach allows diffraction limited focusing in transparent media with NA in air up to 0.8 at depth of several millimeters and simultaneous compensation of aberration at different depths in case of multi-focal optics design. High resistance to radiation of high power ultra-short pulse lasers, operating with both TEM00 and multimode lasers at various wavelengths, compact design and low sensitivity to misalignments make it possible quick, easy and simple integration of aplanoXX objectives in already existing systems.
Further reading

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