Buying Beam Delivery Systems
Various applications like laser material processing require specialized beam delivery systems for bringing a laser beam to the required application area with appropriate focusing. Some systems are based on bulk optics, such as articulated mirror arms, while others use fiber optics. Both types can possibly handle several kilowatts of laser power, making them suitable for industrial and medical applications.
Making Good Purchase Decisions
RP Photonics helps to not only to find all relevant suppliers, but also to make good purchase decisions:
Learning Resources

With its comprehensive resources, RP Photonics helps you to well prepare purchase decisions:
- Encyclopedia article: beam delivery systems
- Related article: laser beams
Aspects to Consider Before Buying
Some aspects to consider before buying beam delivery systems: optical performance, output beam parameters, focus adjustment options, alignment precision, stability of beam position, power handling capacity, thermal management, ease of integration, compatibility with laser systems, ease of cleaning, maintenance requirements, environmental resistance.
For responsible purchase decisions, we recommend applying good practices.
Find Suppliers for Beam Delivery Systems
35 suppliers for beam delivery systems are listed in the RP Photonics Buyer's Guide, out of which 5 present their product descriptions. Both manufacturers and distributors can be registered.
Suppliers with Advertising Package presenting their product descriptions | |
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![]() The Hollow-Core PCF and Photonic MicroCell Company GLOphotonics SAS123 avenue Albert Thomas 87060 Limoges France | ![]() GLO hollow-core fiber technology for the ultra-fast laser (femtosecond, picosecond and nanosecond) and high power laser. The beam delivery products cover a large parameter space in laser average power, pulse energy and wavelength (from UV to MIR). Beam delivery product family brings the exceptional hollow-core fiber technology performance in laser energy and power handling and in dispersion management to the widest range of applications and requirements. |
![]() Broad spectra fiber solutions art photonics GmbHRudower Chaussee 46 12489 Berlin Germany | ![]() Our Mid-IR Optical System includes a hollow silica glass waveguides (HWG) cable, which provides flexible delivery of radiation in the mid-IR spectral range (from 2 μm to 18 μm) in the form of weakly divergent beams. HWG cables are free from Fresnel reflection losses at their ends due to their hollow core structure. This advantage and the small numerical aperture (<0.1) of the output beam make HWG preferable for laser power delivery. The flexible beam delivery system for Er:YAG, CO and CO2 lasers includes an adjustable focusing coupler with pilot beam channel and cooling gas inlet – to be fixed on laser head. Output of the cable could be connected with focusing or collimating handpiece. |
![]() (4Lasers) Mokslininku str. 6B 08412 Vilnius Lithuania | ![]() Optogama designs and manufactures laser beam expanders, beam reducers and divergence compensators which are used to increase or decrease laser beam diameter and control beam divergence:
Optogama designs and manufacture motorized laser power attenuators (LPA) for laser power control. LPA are available for use in the UV, visible, and NIR spectral ranges from 250 nm to 2000 nm. These devices feature a large clear aperture dedicated for considerable size beam applications. All optical elements of these laser power attenuators are made for high LIDT and provide a stable and reliable performance even when using them with high power lasers in industrial applications. |
![]() Optics, Metrology, and Photonics Schäfter + KirchhoffKieler Str. 212 22525 Hamburg Germany | ![]() We offer beam delivery systems that consist of a laser beam coupler of series 60SMS/60SMF, a polarization-maintaining fiber cable and a fiber collimator of series 60FC. |
![]() 1650 Boul. Lionel-Boulet J3X 1P7 Varennes, Quebec Canada | ![]() few-cycle offers a beam steering system with 4-axis manual control of the beam path under vacuum. Yaw, pitch, rotation and position adjustments are implemented with a highly stable flexure mount. The device supports optics with diameters up to 3”. Flange type: KF 50. Pressure down to 10−6 mbar. |
Other Suppliers | |
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Aerotech, Inc. United States | |
Alban Laser Systems United Kingdom | |
Armstrong Optical United Kingdom | |
AUXXOS GmbH Germany | |
Canlas Laser Processing GmbH Germany | |
CASIX Inc. China | |
Control Micro Systems / CMS Laser United States | |
Crisel Instruments s.r.l. Italy | |
Dausinger & Giesen GmbH Germany | |
DialAct Corporation United States | |
Egismos Technology Corporation Taiwan | |
ELUXI Ltd. United Kingdom | |
FiberBridge Photonics GmbH Germany | |
Fibersense & Signals Inc. United States | |
FR-Lasertechnik GmbH Germany | |
Haas Laser Technologies, Inc. United States | |
ios Optics United States | |
IPG Photonics Corporation United States | |
Lahat Technologies Ltd Israel | |
Laser Components GmbH Germany | |
Laser Mechanisms, Inc. United States | |
Laserline GmbH Germany | |
PT Photonic Tools GmbH Germany | |
Pulsar Photonics GmbH Germany | |
QiOVA France | |
Scantech Laser Pvt. Ltd. India | |
Solaris Optics S.A. Poland | |
STANDA Ltd. Lithuania | |
Topag Lasertechnik GmbH Germany | |
VONJAN Technology GmbH Germany |