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Hamburg, Germany
1-10 Employees
FEMTOCHIP develops a Silicon photonics-based high-energy passively Q-switched laser. FEMTOCHIP succeeds in Tm-doping of thick Al2O3 layers. The combined expertise of experts in ultrafast laser technology, micro-integration, materials science and industrial applications aims to jointly overcome the many technical hurdles that have so far made femto-custom lasers on chips impossible.
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Featured
R&D Project FEMTOCHIP | Ultrafast Lasers
... The R&D Project FEMTOCHIP is laying the foundation for low-noise, high-performance, coin-sized ultrafast laser technology that will then be available to science and industry at a fraction of the usual cost. ...
Berlin, Germany
11-50 Employees
2013
We offer customized ultrafast products that enable greater productivity and access to new processes. As a team, consisting of physicists, engineers and economists with over 25 years of experience in laser technology, applied optics, mechanical engineering, precision engineering, electronics and control systems, our expertise is in the field of laser implementation on various materials as well as the development of the industry. Ultrafast lasers are on the threshold of an expanded application for industrial production. With a passion for innovation and more than 25 years of experience Photonic Tools is able to bring this excellent light source to the work surface. With the entire range of our products we are a reliable partner for industrial users, system integrators and laser manufacturers.
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Featured
Breakthrough for ultrafast lasers - Photonic Tools
... We developed a robust, fiber-bonded laser guidance system for ultrafast lasers, with highest possible transmission and perfect laser beam parameters. ...
Hanover, Germany
1-10 Employees
2018
The german company was founded in April 2018 by Dr. Oliver Prochnow has more than 13 years of experience in the field of ultrafast fiber lasers and amplifiers. Now proudly part of HÜBNER Photonics: On October 31st 2021, HÜBNER Photonics, manufacturer of high performance lasers for advanced imaging, detection and analysis, proudly announces the expansion of its technology portfolio to include short pulse femtosecond fiber lasers, with the recent acquisition of VALO Innovations GmbH. This was made possible by an innovative new approach. Due to our technology we are also able to realize very low noise seed lasers for different types of amplifiers. Für die finanzielle Unterstützung bei der Entwicklung einer neuen innovativen Lasertechnologie danken wir der NBank.
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Featured
Ultrafast fiber lasers
... VALO Innovations develops and manufactures ultrafast fiber laser systems with shortest pulse durations for biophotonics, optogenetics and more applications. ...
Salem, United States
51-100 Employees
1971
We are the original innovators of HEM® sapphire crystal growth. We are proud to deliver 200 mm and 220 mm HEM Ti:Sapphire laser optics in support of today’s leading-edge laser facilities. Crystal Systems has more than 50+ years of experience in HEM® growth as well as crystal fabrication. Our focus is on delivering materials that meet specific performance, volume, and cost objectives for commercial, research, and aerospace/government applications. From purchase to product lifecycle support, our operational excellence and service sophistication is unmatched. Our HEMEX® is the highest grade of HEM® Sapphire produced with optical homogeneity measured at 0.02 P-V.
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Featured
HEM® Ti:Sapphire Crystals for Ultrafast Lasers
... HEM® Ti:Sapphire laser optics are renowned for their high quality, demanded by the world’s top ultrafast laser ...
Quebec, Canada
501-1000 Employees
2000
TeraXion’s innovative photonic components and partnership approach help customers around the world design and manufacture industry-defining laser, telecom and optical sensing systems, with more power, speed and precision. TeraXion has been offering high-power fiber laser products for over 15 years. Our products are based on fiber Bragg grating (FBG) technology. Early on, TeraXion recognized the emerging importance of ultrafast lasers also known as ultrashort pulse lasers for industrial and medical applications. To address this need, TeraXion has developed a line of high-quality pulse stretchers and dispersion management reflectors that are robust, cost-effective, and versatile.
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Featured
Ultrafast Laser Components
... Ultrafast lasers must be cost-effective and meet stringent operational requirements. Learn more about TeraXion's line of key ultrafast laser components. ...
Vilnius, Lithuania
11-50 Employees
2017
OPTOMAN - your sidekick for laser optics development. We are ready to design, develop and manufacture cost-effective yet advanced, high accuracy and repeatability thin film coatings and laser optics for laser systems manufacturers and universities worldwide. OPTOMAN designs, develops, and manufactures high damage threshold laser optics for photonic superheroes. OPTOMAN is here to save the day with high reflectivity IBS mirror coatings designed for big & scary ultrafast Yb:YAG, Yb:KYW/KGW, Yb doped fiber lasers. OPTOMAN demonstrates mirror coatings with reflectivity above 99.995% and total loss <1 ppm. OPTOMAN manufactures custom dielectric thin films and high-power laser optics, aiming for the highest possible accuracy, repeatability, and quality. We are ready to design, develop and manufacture cost effective yet advanced high accuracy and repeatability thin film coatings and laser optics for universities as well as laser and laser systems manufacturers worldwide. OPTOSHOP features time-proven IBS-coated bestsellers in stock made with love by OPTOMAN.
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Featured
Ultrafast Laser Line Mirrors
... Ultrafast Laser Line ...
Limoges, France
11-50 Employees
2006
Created in February 2006, LEUKOS is a start-up company born from XLIM research institute, a mixed research unit (UMR 7252) from the French CNRS and the University of Limoges, France. The company was founded by pioneers of supercontinuum generation to develop brand new compact supercontinuum lasers based on their expertise in nonlinear optics. Since 2006, we have been offering solutions to universities, industry and institutes worldwide, making LEUKOS a world-leading player in supercontinuum laser sources. We offer extraordinary laser sources for a wide range of imaging techniques (optical coherence tomography, confocal microscopy, multiphoton microscopy, …). Supercontinuum lasers are light sources that combine the benefits of a broadband lamp (ultraviolet/visible/infrared emission) and of a laser (excellent beam quality). Since 2006, Leukos has been offering supercontinuum solutions to universities, research institutes and industry worldwide.
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Featured
Ultrafast fiber lasers
... Our ultrafast fiber lasers : Brevity HP, Brevity ...
Stuttgart, Germany
1-10 Employees
2017
Stuttgart Instruments is a spin-off company of University of Stuttgart providing versatile and robust laser sources for all kinds of spectroscopic applications, such as vibrational IR spectroscopy, coherent Raman spectroscopy, multiphoton microscopy and many more. At the end of 2017, Stuttgart Instruments was founded based on renowned research work at the University of Stuttgart. Femto- to picosecond pulses at several MHz pulse repetition rates can be provided and the lasers are characterized by outstanding low noise and passive long-term stability.
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Stuttgart Instruments GmbH - Ultrafast Lasers from Germany
... Stuttgart Instruments GmbH develops, manufactures and distributes broadly tunable, ultrafast laser sources covering the visible (680 nm) to the far infrared (20 µm) spectral range at up to watt-level power. Our goal is to provide you the optimum laser for your application. ...
Taipei, Taiwan
11-50 Employees
SUPERBIN was established in 1978 and has been an agent of well-known laser technology in Europe and America for more than 45 years. It was the first pioneer to introduce lasers to Taiwan. Our fields include academia, manufacturing, mass production, and cutting-edge technology industries, and our footprints can be seen in the Hsinchu Science Park. Along the way, gradually towards the road of independent research and development. In order to become the best partner for customers in laser processing.
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Featured
Industrial Ultrafast Lasers
... Industrial Ultrafast Lasers Laser ...
Somerville, United States
1-10 Employees
2010
We are a dedicated team of experts, trusted by engineers and scientists from research and industry since 2010. We are an experienced team of scientists and engineers who understand complex engineering problems or research challenges. Our mission is to support researchers and engineers seeking solutions to the most important challenges of the 21st century including climate, energy, manufacturing, healthcare, space, information and more. We supply SWIR, MWIR and LWIR cameras from industry-leading manufacturers. We supply a full product line of positioning and motion hexapods for accurate alignments and motion simulations. Hexapods provide 6 degrees of freedom and can support high payloads. They are used in manufacturing, sensor and gimbal tests, metrology, space optics, antenna testing and more. We supply microscopy attachments that can provide new functionalities to your widefield fluorescence microscope.
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Featured
Scientific Optical Equipment | Optical Metrology
... Ultrafast Laser ...
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Some interesting numbers and facts about the results you have just received for Ultrafast Laser
| Country with most fitting companies | United States |
| Amount of fitting manufacturers | 58 |
| Amount of suitable service providers | 22 |
| Average amount of employees | 11-50 |
| Oldest suiting company | 1971 |
| Youngest suiting company | 2018 |
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An Ultrafast Laser generates extremely short pulses of light, typically in the femtosecond (10<sup>-15</sup> seconds) to picosecond (10<sup>-12</sup> seconds) range. These lasers operate by creating a quick succession of highly intense and brief bursts of photons, which can be focused with precision onto very small areas. The primary characteristic that sets ultrafast lasers apart is their ability to produce high peak power without significant thermal damage to the material being targeted, due to the minimal heat diffusion between pulses. This unique attribute makes them invaluable in a variety of precision applications. In the field of medicine, for example, they are used in refractive eye surgeries to correct vision with remarkable precision and minimal collateral tissue damage. Within the manufacturing sector, ultrafast lasers have revolutionized the processing of materials, enabling the micro-machining of parts with intricate details that were previously unachievable with conventional lasers. Additionally, in scientific research, these lasers are pivotal for studying ultrafast processes at the atomic and molecular levels, opening new avenues for understanding chemical reactions, quantum mechanics, and material properties. The advent of ultrafast laser technology has thus significantly impacted multiple disciplines, driving advancements in both industrial applications and fundamental research by offering an unparalleled tool for precision, speed, and minimal invasive action.
1. Precision and Accuracy
Ultrafast lasers provide unparalleled precision in material processing, capable of making incredibly fine cuts or modifications without affecting the surrounding material. This high level of accuracy is essential for applications in sensitive fields like electronics and medical device manufacturing, where even minor errors can have significant consequences.
2. Minimal Thermal Impact
One of the most significant advantages of ultrafast lasers is their minimal thermal impact on materials. The rapid pulse duration ensures that heat does not spread beyond the very small area being targeted, preventing damage and preserving the integrity of the material. This feature is particularly beneficial for processing heat-sensitive materials.
3. Versatility
Ultrafast lasers are remarkably versatile, capable of cutting, engraving, and structuring a wide range of materials, from metals and ceramics to polymers and biological tissues. This versatility makes them an invaluable tool across various industries, including manufacturing, biomedical, and telecommunications.
4. Increased Efficiency
The efficiency of ultrafast lasers in processing materials leads to faster production times and reduced waste, contributing to lower operational costs. Their ability to perform precise work quickly without the need for multiple passes saves both time and resources, enhancing overall productivity.
While evaluating the different suppliers make sure to check the following criteria:
1. Wavelength Range and Pulse Duration
Ensure the ultrafast laser provides the specific wavelength and pulse duration required for your application, as these factors greatly affect performance and outcomes.
2. Power Stability and Beam Quality
Check for power stability and beam quality, as these are crucial for achieving consistent results, especially in precision applications.
3. Compatibility and Integration
The laser should easily integrate with existing systems and be compatible with the technical requirements of your application.
4. Reliability and Durability
Assess the reliability and durability of the laser system, considering the supplier's track record and warranty offers.
5. After-Sales Support and Service
Evaluate the level of after-sales support, including maintenance and repair services, as ongoing support is critical for operational continuity.
6. Cost and ROI
Consider the total cost of ownership and potential return on investment, balancing initial costs with long-term benefits and operational efficiencies.
Ultrafast lasers have revolutionized precision manufacturing, enabling industries to achieve high precision in cutting, drilling, and microstructuring of materials. This technology is particularly beneficial in the aerospace and automotive sectors, where the demand for lightweight yet strong components is paramount. By utilizing ultrafast lasers, these industries can fabricate parts with intricate designs and tight tolerances, enhancing the performance and fuel efficiency of vehicles and aircraft. In the medical field, ultrafast lasers play a crucial role in developing and refining minimally invasive surgical techniques. Surgeons can perform highly precise and targeted procedures, reducing patient recovery times and improving surgical outcomes. This technology is instrumental in ophthalmology for corrective eye surgeries and in oncology for the precise removal of tumors. The electronics industry also leverages ultrafast lasers for the microfabrication of components. This application is essential for producing the minute and complex parts required in smartphones, computers, and other electronic devices. The ability to accurately and cleanly process materials at the microscale ensures the reliability and performance of these devices, meeting the ever-increasing demands for miniaturization and functionality. Each of these use cases underscores the versatility and impact of ultrafast lasers across various B2B sectors, driving advancements and efficiencies that were previously unattainable.
Ultrafast lasers, characterized by their ability to emit light pulses lasting on the order of femtoseconds (10^-15 seconds), have reached a Technology Readiness Level (TRL) of approximately 6 to 7. This positioning reflects their transition from validation in a controlled environment (TRL 6) to demonstrations in relevant environments (TRL 7). The advancement to these levels is primarily due to significant technical achievements in pulse generation techniques and material science. Innovations in mode-locking methods have enabled the consistent production of ultrafast pulses, while developments in optical materials and waveguide technology have improved the lasers' efficiency and beam quality. Additionally, the integration of robust, semiconductor-based components has enhanced the reliability and lifespan of these systems, further confirming their readiness for more widespread application-specific testing. Despite these advancements, the ultrafast laser technology is not yet at full operational deployment (TRL 9), as challenges related to cost, system miniaturization, and the development of application-specific models remain. These technical barriers must be addressed through ongoing research and development efforts, aimed at refining the technology for broader commercial and industrial use.
In the Short-Term, ultrafast lasers are expected to see significant improvements in efficiency and cost reduction. These advancements will primarily be driven by innovations in laser materials and cooling technologies, enabling more compact and energy-efficient designs. The focus will be on enhancing the pulse duration to achieve even shorter times, aiming for attoseconds, which will greatly benefit precision manufacturing and biomedical applications by allowing for more precise cuts with minimal thermal damage. The Mid-Term phase is set to witness the integration of ultrafast lasers with artificial intelligence (AI) and machine learning (ML) algorithms. This combination will optimize laser parameters in real-time for various applications, from materials processing to medical surgery, enhancing precision and adaptability. Furthermore, the development of new lasing mediums and the refinement of beam shaping techniques will allow for unprecedented control over laser properties, opening new avenues in photonics research and quantum computing. In the Long-Term, the advent of quantum dot technology and nano-photonics is anticipated to revolutionize ultrafast lasers. These technologies will enable the creation of highly compact lasers capable of operating at power levels and speeds previously unattainable. The application scope of ultrafast lasers will expand into space communication, deep-space exploration, and even in the development of defensive systems against high-speed airborne threats. Additionally, the environmental footprint of these lasers will be significantly reduced, aligning with global sustainability goals.
Some interesting questions that has been asked about the results you have just received for Ultrafast Laser
What are related technologies to Ultrafast Laser?
Based on our calculations related technologies to Ultrafast Laser are Industrial Electroplating, Industrial Filtration, Industrial Sintering, Industrial Extrusion, Industrial Handling
Which industries are mostly working on Ultrafast Laser?
The most represented industries which are working in Ultrafast Laser are Manufacturing, Hardware, Science and Engineering, Consumer Electronics, Data and Analytics
How does ensun find these Ultrafast Laser Companies?
ensun uses an advanced search and ranking system capable of sifting through millions of companies and hundreds of millions of products and services to identify suitable matches. This is achieved by leveraging cutting-edge technologies, including Artificial Intelligence.
