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Brolight- Broadband light sources

Brolight‘s Photonics Business Unit develops broadband light sources for scientific research and spectral applications; Includes various deuterium, tungsten, mercury, xenon, and LED light sources.

RGB Lasersystems- LD system and module

With over 15 years of experience in creating miniaturized laser modules and spectrometers, we design and produce photonic systems with extraordinary compact designs and high-end technical features. The driving force behind our success is the desire to create products that not only take full advantage of today‘s technologies, but also push the limits of miniaturization in photonics even further.

RGB Lasersystems offers a wide variety of laser modules suitable for a large range of applications. Our lasers feature excellent beam quality and wavelength stability, exceptional reliability and an impressive cost/performance ratio. This expertise puts us in the unique position to offer custom-designed laser solutions for customers all over the world.

Block- Quantum Cascade Lasers (QCLs) and mid-infrared laser-based spectrometers

Block is a developer of quantum cascade lasers (QCLs) and mid-infrared laser-based spectrometers for life science, security and safety, and industrial applications.

Bright Solutions- ns, sub-ns DPSS lasers

BrightSolution develops and manufactures state-of-the-art ns, sub-ns DPSS lasers and high brightness diode laser modules.

El.En- Self-Refilling RF CO2 Laser

The Self-Refilling RF CO2 Laser is a revolutionary series of laser sources that brings innovation and convenience to the field. This cutting-edge series comprises powers ranging from 350W to 1500W and offers different selections of wavelengths to meet all customers’ needs.

Innovation Optics inc.(IOI)- High Brightness LED Light Source

With over 30 years of experience, IOI offers high power LED light systems for science and industry that provide maximum photon delivery, illumination uniformity, and stable optical power.

Brolight was founded in 2012, Hangzhou, China.

Brolight is a professional manufacturer of Science Education Apparatus & Photonics Instrument. We manufacture various experimental teaching and training kits for physics and optoelectronics, and we also provide the light analysis solutions base on Spectrum & intensity，to bring customers the high-quality, affordable, and reliable products.

Brolight‘s Photonics Business Unit develops broadband light sources for scientific research and spectral applications; Includes various deuterium, tungsten, mercury, xenon, and LED light sources.

Model	Description	Wavelength (nm)	Power (w)	Ref. Photo
BIM-6203	Deuterium Halogen light source	230~2500	Deuterium：25W Tungsten：20W
BIM-6210	Fan Cooling Tungsten Light Source	400~2000	10W
BIM-6213	Mini-Deuterium Halogen Light source	200~1100	6W
BIM-6214	Intensity adjustable tungsten light source with fan cooling	400~2500	0~20W，Adj
BIM-6208	Bulb Replaceable Tungsten Light Source	300~2400	20W/50W/100W
BIM-6212	Calibration Light Source （Hg）	253~912	3W
BIM-6215	Led Module	255/275/310/365/380 400/415/430	0.2W~3W
BIM-6216	Tunable LED Light Source	455/525/620/590/ 3000K CCT/6500K CCT	3W
BRS-7001	Xenon Light Source	250~1100	250W

With over 15 years of experience in creating miniaturized laser modules and spectrometers, we design and produce photonic systems with extraordinary compact designs and high-end technical features. The driving force behind our success is the desire to create products that not only take full advantage of today‘s technologies, but also push the limits of miniaturization in photonics even further.。

RGB Lasersystems offers a wide variety of laser modules suitable for a large range of applications. Our lasers feature excellent beam quality and wavelength stability, exceptional reliability and an impressive cost/performance ratio. This expertise puts us in the unique position to offer custom-designed laser solutions for customers all over the world.

Products:

COMPACT LASER MODULES WITHOUT COMPROMISES

FOR INDUSTRIAL INTEGRATION AND SCIENTIFIC APPLICATION

Key features:

• ● Output powers up to 1W
• ● High beam quality and stability
• ● Broad selection of wavelenghts; fine-tuneable
• ● Modulation up to 1.5 MHz
• ● Temperature-stabilized
• ● Wavelength-stabilized systems available
• ● Control Software Ltunes included
• ● Fiber coupler & fibers available

Beam specifications

Available wavelength

Remark:

*1. Multi-mode

*2. Water cooler recommended

*3. Acusto-optical modulator recommended for stable and faster modulation

*4. The actual emission wavelength may deviate from the specified wavelength by up to ± 5nm (± 1 nm on request). It depends on the actual output power and can be fine-tuned by adjusting the temperature (except DPSS lasers).

General specifications

Block is headquartered in Southborough, Massachusetts, is a developer of quantum cascade lasers (QCLs) and mid-infrared laser-based spectrometers for life science, security and safety, and industrial applications.

For life science applications, Block's QCLs are used in medical devices for cancer detection, glucose monitoring, breathe analysis to detect infectious diseases including Covid, protein characterization, and a variety of imaging, chemical analysis, and research instruments.

Block's safety and security products are the first line of early warning in the event of a chemical attack or accidental chemical leaks. Our products are installed in critical infrastructure, including transportation hubs, commercial buildings, and sensitive government spaces. Block's technology also detects drugs, such as Fentanyl.

Block's QCLs operate in "pulsed" mode (as opposed to "continuous wave") for operating in a wide range of environments without requiring expensive and bulky external cooling. 

Block's product series:

● LaserTune (for research & development)：

• ○ Tuner Selection (μm): 5.4–6, 6.1–7.3, 7.4–10.4, 9.9–12.8
• ○ Benchtop, turnkey laboratory tool
• ○ Use in optical experimentation or spectrometer development
• ○ Fully-integrated solution 
• ○ Optional IR detector

● mQCL (for OEM product integration):

• ○ Tuner Selection (μm): 5.4–6, 6.1–7.3, 7.4–10.4, 9.9–12.8
• ○ Multi QCL optical module for system prototyping
• ○ Broad wavelength applications
• ○ Gap free tuning
• ○ Noise sensitive measurements
• ○ Trigger I/O for seamless integration

● sQCL (For portable OEM product integration):

• ○ Tuner Selection: Variety of ranges within 5-13 µm (760-2,000 cm-1).
• ○ Best in class ultra-miniature tuner and electronics
• ○ Wide wavelength range in a single tuner
• ○ OEM integration support
• ○ Lowest cost in volume 
• ○ Command/Control SDK provided

Bright Solutions Srl was founded in 1998 by a group of laser scientists and industry experts with a thorough experience in diode-pumped solid-state laser engineering. It develops and manufactures state-of-the-art ns, sub-ns DPSS lasers and high brightness diode laser modules. The Company’s activity is oriented towards the development of state-of-the-art diode-pumped solid-state laser systems aimed at superior, efficiency, compactness and reliability, suitable for industrial, aerospace, medical, military and scientific application.

Bright Solutions has its main location in Pavia, Italy, where it employs approximately 50 employees. Historically, Bright Solutions products have been air-cooled short nanosecond lasers and more recently picosecond lasers down to 100 ps. Bright Solutions offers the 2nd, 3rd, and 4th harmonics of their lasers, as well as at times the 5th harmonic, and 1.5 um and 3.3 um versions of some of its lasers. Bright Solutions has in excess of 4,000 lasers in use in the field.

Furthermore, Bright Solutions acquired great experience in setting up industrial production and testing line and in forming professionally skilled personnel for the manufacture of diode pumped solid-state lasers. Its proprietary designs in the field of DPSSL for industrial applications are an indisputable success being today marketed worldwide in the thousands of pieces.

R&D and manufacturing activities are focused on two main technological areas:

• ● High performance compact and efficient Diode Pumped Solid State Laser sources aimed at the industrial OEM market and at scientific and medical applications
• ● High Brightness Laser Diode Sources based on the design of advanced refractive micro-optics for reshaping of the beam of high-power diode bars

WEDGE – SHORT PULSE Q- SWITCHED DPSS LASER

• ● Wedge family has been fully renewed in terms of performances and available models.
• ● Wedge HB and XB models are currently available at 1064nm, 1570nm, 3100nm, 532nm, 355nm and 266nm; laser pulse energy reaches 4 mJ with 1.5 ns pulsewidth.
• ● Wedge-HF and Wedge-XF models are available in a very compact unit, only 8x9x19 cm, both at 1064nm and 532nm.
• ● Repetition rate can reach 100 kHz and pulses can be shorter than 500 ps.
• ● Wedge HF and XF Plus can reach higher power maintaining both the same pulsewidth and mechanical footprint.
• ● Moreover also Wedge HF and XF are available at 355nm and at 266nm.
• ● Based on a proprietary fast Q-Switching technology, these compact sealed and monolithic diode pumped lasers are insensitive to vibrations and harsh environments.
• ● They have been designed for OEM applications like micro machining of hard and soft materials, specialty marking, OLED, glass and crystals engraving, LIDAR, LIBS, Spectroscopy and medical diagnostics. High output peak power, with relatively low energy and heat generation, allows efficient ablation and non-linear interaction with most materials. The compact and lightweight package represents a great benefit in LIDAR and other aerospace applications, while short pulses give extremely precise time-of-flight measurements.

Features:

• ● Up to 4 mJ Pulse Energy
• ● 3 MW Peak Power
• ● 500 ps to 3 ns Pulse Width
• ● Single Shot to 100 kHz
• ● Monolithic Design
• ● Air Cooling
• ● Low heat waste
• ● 266, 355, 532, 1064, 1570, 3100 nm
• ● Multi-wavelength configurations

Applications:

• ● Micromachining of glass and hard materials
• ● Specialty marking
• ● Thin film removal
• ● LIDAR
• ● LIBS
• ● Medical, aesthetical and diagnostics
• ● Non-linear Spectroscopy
• ● Harmonic and parametric generation
• ● Visible to IR OPO pumping
• ● TeraHertz generation

ONDA NS Q-SWITCHED DPSS LASER

Developed as a high-energy seeder for advanced MOPA systems, Onda is the new DPSS ns-laser platform aimed to high-end applications requiring both excellent beam quality and high peak power in order to process metal, glass, plastics, delicate and hard materials.

Onda is available at four different wavelengths: 266, 355, 532 and 1064nm.

The internal optical layout and the accurate temperature management allow to get relevant pulse energy performances without compromising the lifetime of the THG and FHG stages.

All of the Onda models can work from single shot to 50 kHz or up to 100 kHz with a pulsewidth between 2 and 10 ns and share the same mechanical footprint and electronic interface.

Compactness, insensitivity to environmental conditions and ease of handling allow superior operation flexibility and performance / cost ratio.

A new version of the digitalic Control Box and the new proprietary Software Interface are available for simplified remote control and monitoring.

Features:

• ● Up to 1mJ pulse energy
• ● @266nm @355nm @ 532 @1064nm
• ● 2 to 10 ns pulsewidth
• ● Single shot to 100kHz
• ● MOPA configurations
• ● Monolithic Design
• ● Air cooling
• ● Low heat waste

Applications:

• ● Specialty marking
• ● Micromachinig of glass
• ● Electronic manufacturing
• ● LIDAR and bathymetry
• ● Thin film removal
• ● Hole drilling

BDL & BFP – FIBER COUPLED DIODE LASER

The BDL conduction cooled fiber coupled diode lasers are available in various sizes from 5W to 400W. The integrated optical design, accurate test and selection of high quality semiconductor materials and efficient thermal management make these devices the ideal choice for applications requiring reliability, long lifetime and simple conductive cooling in a small footprint. BDL packages are coupled to standard SMA patch cables. Custom pig-tailing or free space collimated output are also available.

Features:

• ● Up to 400 W QCW
• ● Up to 200 W CW
• ● 200 um
• ● Smallest Footprint
• ● Conduction Cooled
• ● Long Lifetime
• ● Multi-wavelength
• ● Custom Mil Spec Solutions

Applications:

• ● Solid-state Laser Pumping
• ● Fiber Laser Pumping
• ● Medical Lasers
• ● Material Processing
• ● Illumination
• ● Instrumentation
• ● Ranging

The El.En. Group was born in 1981 in Florence. It has been manufacturing technological laser solutions for the medical, industrial and world art and cultural heritage sectors for over 40 years. 

The BLADE RF Self-Refilling is a revolutionary series of laser sources that brings innovation and convenience to the field. This cutting-edge series comprises powers ranging from 350W to 1500W and offers different selections of wavelengths to meet all customers’ needs. What sets the Self-Refilling Series apart is its unique embedded gas cylinder, designed to ensure a continuous and automatic fresh gas refill. This feature eliminates the need for necessity of factory reconditioning thereby enhancing productivity and reducing downtime. With the Self-Refilling Series, operators can experience uninterrupted laser performance, maintaining optimal power and stability throughout their work processes.

The Blade RF Self-Refilling laser sources are versatile and can be utilized in various applications, including high-performance remote processing, digital converting for the packaging industry, cutting and engraving of plastics, wood, leather, fabrics and many other materials. They excel in high-speed cutting of paper and cardboard and labels kiss cutting, offering exceptional stability, precision and performance. With its adaptability and capabilities, the Blade RF Self-Refilling series proves to be a reliable choice for a wide range of industries, enhancing productivity and offering excellent laser processing in diverse applications.

Blade RF Self-Refilling CO2 Laser: 

• ● Rated power (W) : 350 ~1500
• ● Peak power (W): 750~2400
• ● Wavelength (um): 10.6 ± 0.4

About Innovation Optics Inc.(IOI)

Innovations in Optics was co-founded in 1993 by Thomas Brukilacchio, Ph.D., and Sarah Harpley Brukilacchio.

Recognized as one of the leading innovators in the areas of high brightness LED chip-on-board (COB) products and illumination engineering and technology, we leverage a unique, multidisciplinary approach to systems design to help engineers around the world bring cutting-edge turnkey optical solutions to market faster. Serving as a contract engineering company specializing in photonics engineering in its early days, our organization was exposed to many challenges as we worked with start-up and well established companies to solve complex problems and to design and prototype high-performance optical product solutions. The Company has transitioned over the last several years to develop and manufacture standard High Brightness LED products and custom OEM solutions in our state-of-the-art facility and at our contract management partner facilities.

Innovations in Optics is pushing the technology envelope to develop industry-leading ultra high brightness LED products incorporating patented and proprietary optics to direct and maximize output uniformity and efficiency, enabling some of today’s most revolutionary solutions in light.

Products

With over 30 years of experience, IOI offers high power LED light systems for science and industry that provide maximum photon delivery, illumination uniformity, and stable optical power.

DMD Illuminators

UV LED modular systems delivering optimum light and uniformity for Semiconductor, Micro-electronics and Printing applications.

Innovations in Optics' UV LED illuminators are ideal for TI’s larger DLP chipsets. LumiDL™ and Lumi3D™ optical design provides highly uniform flux density over large areas. Radiant flux is confined to 12° acceptance half-angle and DLP active area.

Light uniformity, wavelength options, and intense brightness are critical for today’s semiconductor and additive manufacturing industries.  Discover what these modular illumination products can do for you.

Our DMD illuminators have a field replaceable unit (FRU) providing fast and easy light engine replacement.

Projectors

A variety of projectors used in the Industrial & Commercial markets, as well as Medical & Life Sciences.

Innovations in Optics' projectors achieve spatially uniform illumination fields by combining our patented COB LED technology and efficient, non-imaging, homogenizing optics with precision re-imaging lens systems.

With exceptional uniformity of light and brightness, these are well suited in the Specialty Illumination, Inspection & Measurement, and Machine Vision applications. We have demonstrated LED illuminator technology to replace mercury-xenon, tungsten-halogen, and low-pressure sodium arc lamps for high volume manufacturing.

• ● Multiple, high intensity patterns at long working distances
• ● Spatially uniform illumination fields
• ● Multiple, individually addressable wavelengths

Solar Simulators

Class AAA simulators which are user friendly with remote digital operation and custom output spectrum.

LumiSun™-50

Features

• ● IEC class AAA compliant
• ● Adjustable output spectra
• ● Uniform and stable illumination
• ● Irradiance from 0.1 to 1.5 SUNS
• ● Long life, multi-spectral LEDs
• ● User friendly front panel GUI
• ● Not focusable
• ● Max # of die / Max # of wavelengths: 9/9

LumiSun™OEM

Features

• ● Irradiance adjustable from 0.4 to 1.5 Suns
• ● Mercury and ozone free
• ● Versions available for silicon or CdTe spectrum

Light Engines

Compact light engines featuring multispectral LumiSpectra, LumiBright, LumiFiber, LumiScope, and LumiFlood for Medical & Life Sciences and Industrial & Commercial applications.

Delivering the highest brightness and optical power available, our light engines provide optimized output solutions for a range of applications such as light guide and fiber optic coupling, fluorescence excitation, and unrivaled uniform near and far field illumination.

Industrials & Applications

Innovations in Optics has extensive experience designing a full range of solutions for a growing list of worldwide satisfied customers.

Microelectronics & Semiconductors

Innovations in Optics' illuminators allow unprecedented speed and resolution for inspection solutions, direct imaging, maskless lithography and more. The robust, high uniformity designs enable extreme radiance, stability, and long lifetime.

• ● Excellent Spatial Uniformity
  •     ○ Our optical design provides highly uniform flux density over large areas for DLP systems
• ● Customizable Wavelengths
  •     ○ The LED wavelength distribution can be customized to suit the application
• ● Drivers Included
  •     ○ Digital drivers and controllers provide programmable, fully integrated power solutions with fast response times.

Innovation in Optics' LED Systems incorporate our patented and proprietary technologies delivering high optical power. Our UV products offer unprecedented flux density for additive manufacturing and maskless lithography. Visible to NIR products provide near field uniformity >90% for semi-conductor wafer inspection and multispectral imaging.

Our devices are ideal for numerous applications as a more efficient alternative to costly laser systems and mercury, xenon and tungsten-halogen lamps.

Medical & Life Sciences

We have built solutions for surgical illumination, fluorescence excitation and tissue illumination, and tissue imaging as well as microscopy.

Innovations in Optics leverages their expertise in the medical optics field to create industry leading products for surgical fiber optic illumination, fluorescence excitation and more.

• ● Intense and Stable Optical Power
  •     ○ Ideal for medical illumination products
• ● Multispectral
  •     ○ Multiple, individually addressable wavelengths
• ● Compact & Uniform
  •     ○ Unsurpassed illumination in a small package

For more than two decades, we’ve provided consulting services to the bio-photonics industry, helping leading organizations bring innovative optical solutions—such as the first ever LED surgical lighting system to meet IEC recommendations—to market quickly and cost effectively.

Other applications include biomedical imaging, Real Time-PCR, gesture and face recognition, and more.

Our environmentally conscious products are also increasingly sought as green replacements for halogen, fluorescent, and tungsten lighting

Industrial & Commercial

Our experience in commercial & industrial markets includes designing and manufacturing machine vision illumination, inspection systems, and UV curing products and solutions.

Innovations in Optics provides cost-effective and environmentally responsible photonic solutions in industrial and commercial markets.

• ● Highly Uniform
  •     ○ We are known for our superior uniformity and high brightness.
• ● High Intensity
  •     ○ Our patented and proprietary product designs produce the highest intensity in wavelengths from UV through NIR.。
• ● Energy Efficient
  •     ○ Advantages include mercury-free illumination, low-maintenance, and higher electrical efficiency with lower operating cost, and environmental safety with reduced CO2 emissions.

Solar & Photovoltaics

Innovations in Optics has partnered with companies that are developing alternative and clean-energy technologies to help protect and sustain the environment.

• ● Class AAA
  •     ○ Meets IEC 60904-9 Class AAA for spectral match, non-uniformity of irradiance and temporal stability requirements.
• ● Compact
  •     ○ The compact and lightweight design supports a diversity of system integration concepts previously unattainable.
• ● Flexibility & Cost
  •     ○ Offers lower power consumption, higher stability, smaller size, greater application flexibility, and a significantly lower cost-of-ownership.

About ATL

ATL Lasertechnik GmbH was established in 1993 and made a breakthrough in UV laser technology in 1994 by developing the world's first compact, high repetition-rate, short-pulse excimer laser. ATL has refined this revolutionary concept through several product generations and, today, the ATLEX product range leads the world with its patented preionization and discharge technique. ATL continues to develop compact short-pulse excimer lasers, and remains the technology leader in this area.

What we Do?

The new modern ATL production and sales facility is located in Wermelskirchen, Germany, within 35 km of Cologne (Köln) and only 60 km from the international airport in Düsseldorf. ATL excimer lasers have been successfully applied in industry, science and medicine. The main applications are micromachining (glass and plastic e.g. catheters) Ophthalmology (vision correction), microfabrication, geosciences and forensic field (laser ablation for LA-ICP-MS), TOF- spectroscopy, fibre Bragg grating writing (FBG) and Ophthalmology (vision correction). ATL is the pioneer of small sized high repetition rate excimer lasers for a modern wavefront assisted refractive surgery systems.

Why you choose our Company?

ATL small excimer lasers are also integrated into market-leading compact UV-micromachining systems for industrial and R&D applications. In 1996, Optec introduced the MicroMaster, the world's first compact, high-performance UV laser workstation, based on ATLEX excimer technology. Later on Optec and ATL introduced ProMaster, an advanced excimer micromachining system for microelectronic applications. Today ATLEX compact excimer laser are successfully integrated into LA-ICP-MS systems of various laser system manufacturers.

Background

In 1993 ATL LASERTECHNIK recognized that expanding the range of applications for coherent UV radiation in science, medicine and industry required a new generation of excimer lasers to fill the technology gap between large, conventional UV laser sources such as excimer lasers (moderate rep. rates, hundreds of millijoules) and rfi-excited UV sources (high rep. rates, micro- joules). This technology gap is particularly apparent in applications requiring deep UV laser radiation (248nm, 193nm and 157nm) beyond the current range of diode-pumped solid- state sources.

This gap has now been filled by ATL Lasertechnik with a new range of powerful air-cooled excimer lasers based upon metal-ceramic technology.

ATLEX, 248nm beam profile, far field

ATLEX Concept

The ATLEX series of short pulse excimer lasers employs state of the art metal-ceramic technology and creates powerful new concepts in equipment and design of the discharge process. ATL‘s corona preionization scheme provides highly efficient laser performance with pulse duration of a few nanoseconds and enhanced reliability of all high voltage components. The key features of ATLEX laser design are:

•  
• - Solid State Switch
• - Corona Preionization
• - Laser Head Volume < 3L
• - Total-Metal-Ceramic Tube
• - Air-Cooled up to 1 kHz, Thermal Management
• - RS485, RS232, USB and
• - FOC Interface
• - Energy Stabilization Mode
• - Handheld Contr. (optional)
• - Integrated Pump & Halogen Filter
• - Meets European CE Standard

The unique ATLEX laser design results in a rectangular-shaped beam of unsurpassed homogeneity (see profile), unlike competing small lasers with more Gaussian profile, often also described as excellent but far less useful for materials processing including medical applications.

ATLEX-I chamber

1. Metal Ceramic Tube

The ATLEX metal-ceramic laser tube is entirely manufactured of halogen and UV-resistant aluminium alloy and ceramics. A considerable lower rate of gas contamination, long static gas lifetime and improved electrical reliability are guaranteed by the use of metal seals and ceramic insulated high voltage feed- throughs. Additionally, an internal electrostatic dust purifier-depressing window contamination - is provided as a standard.

The ATLEX vessel geometry provides symmetrical cooling resulting in an excellent beam quality and beam pointing stability.

Solid state switch

2. Corona - Preionization

•  
• - Excellent beam quality
• - Low beam divergence
• - Excellent pointing stability
• - Low thermal drift
• - Reduced high voltage
• - Enhanced gas lifetime
• - Extended optics cleaning and chamber service intervals

3. Flushable Optics Holder

Purging the entire beam path from the output coupler of the laser to the desired location with inert gas is a well established practice in the UV laser industry. The major beneficial purging effects are a reduction of the present oxygen, UV ligh t generated ozone, water vapor and outgassed contamination levels in the beam path. Oxygen and other contaminations strongly absorb the UV radiation, generating ozone and excited contaminants which attack optical coatings. Purging therefore results in a higher transmission of the UV light, and prolonged useful life of the exposed optical elements.

Applications

ATLEX lasers are designed for numerous applications in medicine (eye surgery), micro-electronic industry (e.g. fiber Bragg grating writing) and science where a very high precision processing and high reliability of laser technology are required.

1. Fiber Bragg Grating

ATLEX-FBG 193 nm and 248nm generates short pulses with a spatial coherence compatible for all types of fiber Bragg grating writing.

Micromachining System based on ATLEX-S-193 nm Short Pulse Excimer Laser (Courtesy of FZK, Karlsruhe)

2. Micromachining

Very short excimer laser pulses of 10 - 20 mJ with equivalent Megawatt peak power are used in rapid prototyping, micro- machining systems for processing micro-electronic and bio-medical components in materials like polymers , inorganics (glass), thin metals, plastics and ceramics.

ProMaster turnkey workstation (based on ATLEX) sets a new standard in micromachining (Courtesy of OPTEC S.A)

3. Spectroscopy

Short pulses of few nanoseconds provides researchers a new powerful UV tool for   photo- ionisation processes and high resolution TOF spectroscopy. Extreme short ATLEX laser pulses (<4ns) are also used by various analytical tools e.g. excimerlaser high - fluence ablation systems in connection to LA-ICP/ICP-MS - spectroscopy.

4. APLI

APLI (Atmospheric Pressure Laser Ionization) is a breaking ionization method with unrivalled sensitivity and selectivity for demanding applications such as the determination of PAH at low concentrations , polymer research, etc..

APLI source coupled to a micrOTOF II™ (Courtesy of Bruker Daltonics™)

5. Refractive Surgery

The randomized flying spot method combined with a fractal projection technique sets a new standard in wave front - assisted refractive surgery for a wide range of myopia, hyperopia and astigmatism as well as corneal irregularity corrections .

The ATLEX Series Excimer Laser

1. ATLEX-I
A new generation of compact air-cooled, high repetition rate excimer lasers, designed for low- and mid-range duty cycle applications 

Features:

•  
• - Soft corona preionization
• - HV-solid state pulser
• - Laser head volume < 3l
• - TMC (Total-Metal-Ceramic) Vessel
• - Integrated vacuum pump & halogen filter
• - Air Cooled / Optional Liquid Cooled, active thermal management
• - RS-485, RS232, USB and fiber optic Interface for system integration
• - Flushable optics holder
• - Energy stabilization mode
• - Dynamic fan speed controls
• - Meets European CE-standard
• - RoHS compliance

Applications

•  
• - Micromachining
• - Laser ablation
• - Medicine (refractive surgery)
• - Spectroscopy
• - Metrology

Specifications

All specifications are typical data and subject to change without notice due to product improvements.

• ¹ Measured at 20Hz; allow 10% reduction of output energy and power for laser equipped with stabilization mode.
• ² Typical value, FWHM

2. ATLEX-L
New industrial excimer lasers

Features:

• - TMC (Total-Metal-Ceramic) Vessel
• - Corona Preionization
• - Solid state switch
• - Extended Dynamic & Static Gas-Lifetime (Several Months)
• - Laser Head Volume 6 l
• - Air Cooled / Optional Liquid Cooled
• - RS-485, RS232, USB and fiber optic Interface for system integration
• - Flushable optics holder
• - Integrated 4-Valve System for Easy Gas Handling
• - Dynamic fan speed controls
• - Meets European CE-standard, RoHS compliant
• - Modular Design / Service Friendly

Specifications

All specifications are typical data and subject to change without notice due to product improvements.

• ¹ Measured at 20Hz; allow 10% reduction of output energy and power for laser equipped with stabilization mode.
• ² Typical value, FWHM

3. ATLEX-FBG
Ultra-compact, high efficient excimer laser for Fiber Bragg Grating (FBG) writing 

Features:

• - Soft corona preionization
• - HV-solid state pulser
• - Laser head volume < 3l
• - TMC (Total-Metal-Ceramic) Vessel
• - Integrated vacuum pump & halogen filter
• - Air Cooled / Optional Liquid Cooled, active thermal management
• - RS-485, RS232, USB and fiber optic Interface for system integration
• - Flushable optics holder
• - Energy stabilization mode
• - Dynamic fan speed controls
• - Meets European CE-standard
• - RoHS compliance

Applications

• - Fibre Bragg grating writing

Specification

All specifications are typical data and subject to change without notice due to product improvements.

• ¹ Measured at 20Hz; allow 10% reduction of output energy and power for laser equipped with stabilization mode.
• ² Typical value, FWHM
• ATLEX-L-FBG upon request.
• Other wavelengths upon request.

4. ATLEX-LR
A new generation of compact air-cooled, excimer lasers, designed for low duty cycle applications 

Features:

• - Extremely fast pulse rise-time and peak power density
• - Laser head volume < 3l
• - TMC (Total-Metal-Ceramic) vessel
• - Integrated vacuum pump & halogen filter
• - Totally air-cooled, active thermal management
• - RS-485, RS232, USB and fiber optic interface for system integration
• - Flushable optics holder
• - Energy stabilization mode
• - Dynamic fan speed controls
• - Meets European CE-standard
• - RoHS compliance

Characteristics:

• - Optimized 193 nm laser performance for LA-ICP-MS.
• - Similar technical parameters as the ATLEX-I.
• - Extremely fast pulse rise-time and peak power density

Specification

All specifications are typical data and subject to change without notice due to product improvements.

• ¹ Measured at 20Hz; allow 10% reduction of output energy and power for laser equipped with stabilization mode.
• ² Typical value, FWHM