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Rüschlikon, Switzerland
1-10 Employees
We are strongly committed to this tradition and thus, we adapted our standards to these high requirements. We are always keen to provide customers required systems and products from our fascinating field of expertise with a comprehensive expert service as well as technical support for our devices, hereafter. We offer high-tech and innovative devices with an uncompromising quality under attractive conditions and with a start-up support, for interested companies. We offer interested companies technically advanced and future-oriented devices in uncompromising quality as well as interesting conditions and support. Be the first to receive the latest offers, product reviews and ratings, and all the highlights. Since these providers may store your personal data, you can deactivate them here.
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5x65 afokal Objektiv | ALPHA PHOTONICS
... Entdecken Sie das ALPHA PHOTONICS 5x65 Objektiv für präzise Nachtsicht. Leichtes Metallgehäuse, hochwertige Optik. Perfekt für Profis. ...
Gräfelfing, Germany
251-500 Employees
1998
TOPTICA Photonics AG - A passion for precision - www.toptica.com. TOPTICA develops and manufactures high-end laser systems for scientific and industrial applications. The portfolio includes diode lasers, ultrafast fiber lasers, terahertz systems, frequency combs and continuous-wave fiber lasers and amplifiers. OEM customers, scientists, and over a dozen Nobel laureates all acknowledge the world-class exceptional specifications of TOPTICA’s lasers, as well as their reliability and longevity. Founded in 1998 near Munich (Germany), TOPTICA became one of the leading laser photonics companies by aiming for, and consistently delivering high-end specifications.
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News | TOPTICA Photonics AG
... TOPTICA completes the acquisition of Azurlight Systems, which becomes TOPTICA Photonics ...
Boston, United States
11-50 Employees
2012
We are a team of highly motivated and intelligent individuals with a dedication to disruptive innovation. We are always welcoming talented, hardworking, and dynamic engineers, scientists, and business developers. We specialize in the development of photonic circuits for customers worldwide in growing markets such as automotive, industrial, consumer, medical and defense, among others. AP delivers first fully operational Solid State LiDAR Prototype to Tier 1s. We focus on productivity for growth and profitability, and respect for its partners. Analog Photonics is developing disruptive LiDAR and Optical Communications technology built on our proprietary silicon photonics platform to enable a future where people and devices are highly connected, and autonomy is ubiquitous. Data communication – Our optical transceiver engines offer the highest bandwidth density and energy efficiency, addressing the needs in the datacenter and high-performance computing interconnects at an aggregate data rate of 400G-to-3.2Tbps.
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The Silicon Photonics PDK
... Interested in The Silicon Photonics Process Design Kit? ...
West Chester, United States
1-10 Employees
1996
MPS provides off-the-shelf components and systems as found in the Products section; however, your options are not limited solely to those listed. In addition, MPS offers individualized, custom engineering solutions to all of its customers. MPS offers varying tiers of services across the following functional elements. MPS manufactures and delivers products and services to a wide array of military and industrial customers. MPS announces the release of the MP-9000-22/40 microwave fiber optic transmitter product lines. The OFW-7820-TRX fiber optic interfacility link (IFL) subsystem provides exceptional gain flatness and phase linearity performance over a 10 GHz instantaneous bandwidth, from 2 to 12 GHz. This document highlights MPS’s comprehensive product offering of microwave photonic solutions that exhibit RF bandwidths from DC to V Band.
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3.5 GHz Linear Photonics Transmitter
... MP-2350TX Download Data Sheet Request a Drawing (+) Larger View 3.5 GHz Linear Photonics Transmitter The MP-2350TX is a comprehensive family of RF/Fiber Optic Transmitters that are designed to provide electrical-to-optical (E/O) conversion of broadband RF signals over a frequency range of ...
Goleta, United States
11-50 Employees
2022
OpenLight is the world leader in custom, PASIC design and manufacture. This single chip concept vastly reduces manufacturing and assembly costs, by removing less reliable manufacturing processes altogether, such as aligning external lasers to waveguides. Application Specific Integrated Circuits are central to the operation of most of the electronic products and computers used today, optimising performance, cost and efficiency.PASIC’s are the photonic equivalent!Photonic Application Specific Integrated Circuits are central to photonics-based design, both now and in the future, for the same reason as ASICs. OpenLight is bringing PASIC design to the mass market, with its PDK, production services, and a wealth of PASIC support tools, such as Evaluations kits and PDK Samplers. Carter is a semiconductor communications industry veteran, with an impressive, 25-year track record. Kevin is a seasoned and results proven semiconductor and fiberoptics professional with 25 years of experience in global sales and marketing. Kaman was Chief Systems Architect and Director of Product Management at Calient Networks. OpenLight’s inhouse engineers provide custom PASIC design and layout services to help with….
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ProductsFlexible, powerful silicon photonics solutions
... ProductsFlexible, powerful silicon photonics ...
Barcelona, Spain
11-50 Employees
1993
Monocrom develops its first mountings with micrometric precision: an optic fiber fault detector for Telefonica, the Spanish leader in telecommunications. Monocrom launches to the market its range finder laser devices. Monocrom faces its biggest challenge in space with the ESA ExoMars 2020 project, established to investigate vestiges of life on Mars. Monocrom is in charge of the development of a green diode-pumped solid state laser which has to satisfy very strict requirements to meet both space mission and scientific needs. Monocrom makes great strides in ophthalmology: its ultra short pulse green laser for degenerated macular treatment is considered one of the most important advantages in eye surgery from the last years. Monocrom develops an innovative solution for pumping applications based on a new internal distribution of the optical elements inside the cavity. We are the creators of Smart Laser Diodes for dynamic Market Sectors, designed to seamlessly connect everything and everyone, fostering innovation and addressing the world’s most pressing challenges. At Monocrom we have the power to create and innovate by rewriting the next chapter in our company’s history.
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Featured
DAY OF PHOTONICS
... DAY OF PHOTONICS ...
Washington, United States
1-10 Employees
2004
Whether you are looking for industry experience, applications focus, or a creative solution to a difficult design, fabrication, or metrology challenge…or all three – Berkshire, Engineering Answers! Berkshire Photonics recently presented its Engineering Solutions to an international audience at Photonics West. Berkshire Photonics has been a valued supplier to US national laboratories for many years. It’s a good sign when a company grows and needs more space, isn’t it? Lorem ipsum dolor sit amet, consectetur adipiscing elit.
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Featured
Home - Berkshire Photonics
... It was great to see you at Photonics West! ...
Jerusalem, Israel
1-10 Employees
2013
We create novel optical fiber connectivity for ultra-high bandwidth applications. Teramount changes the world of optical connectivity by offering a novel solution, the patented Photonic-Plug, for connecting optics to silicon. Teramount’s Photonic-Plug utilizes standard semiconductor manufacturing processes and packaging flow in silicon photonics, enabling any fabless semiconductor company to expand into silicon photonics while working with traditional foundries and OSATs. Most existing solutions for silicon photonics packaging are limited to low number of fibers and to specialized packaging equipment such as active alignment processes. Teramount’s Photonic-Plug offers large assembly tolerances optimized for assembly of large number of fibers through passive alignment protocols, enabling high volume packaging through standard CMOS assembly lines, thus significantly improving manufacturing speeds and lowering overall cost.
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32 Fiber Photonic-Plug
... More Teramount Photonic-Plug ...
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高分解能スペクトラムアナライザー (Aragon Photonics) | Santec Holdings Corporation - The Photonics Pioneer
... 高分解能スペクトラムアナライザー (Aragon Photonics) | Santec Holdings Corporation - The Photonics ...
Livingston, United Kingdom
11-50 Employees
2002
We also have a page dedicated to listing our partner companies, groups and collaborations as well as our professional affiliations – underlining our belief that collaboration drives progress in science and technology. Helia Photonics headquartered in Livingston, Scotland, is a company renowned for its expertise in III-V & Si photonics BEoL processes, thin film optical coating technologies and offers an array of advanced services catering to a wide range of optical and semiconductor applications. With a focus on precision and innovation, Helia Photonics has established itself as a key player in the photonics industry.
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Helia Photonics: the ultimate innovators in thin film optical coatings
... Helia Photonics Ltd – The ultimate innovators in thin film optical ...
Technologies which have been searched by others and may be interesting for you:
Some interesting numbers and facts about the results you have just received for Photonics
| Country with most fitting companies | United States |
| Amount of fitting manufacturers | 930 |
| Amount of suitable service providers | 634 |
| Average amount of employees | 11-50 |
| Oldest suiting company | 1993 |
| Youngest suiting company | 2022 |
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Photonics is the science and technology of generating, controlling, and detecting photons, which are particles of light. This field is pivotal as it encompasses the application of optical technology including lasers, fiber optics, and electro-optical devices in numerous sectors such as telecommunications, medicine, manufacturing, and computing. In telecommunications, photonics enhances data transmission speeds over fiber-optic cables, enabling high-speed internet and communication networks that form the backbone of modern digital infrastructure. In medicine, photonics technologies facilitate advanced diagnostic procedures and minimally invasive surgeries through precision laser instruments, significantly improving patient outcomes and recovery times. Manufacturing benefits from photonics through the use of laser-based cutting, welding, and material processing techniques that offer unparalleled precision and efficiency. Additionally, in computing, photonics is at the forefront of developing ultra-fast, light-based computers that promise to revolutionize data processing speeds and energy efficiency. The overarching impact of photonics lies in its ability to manipulate light in ways that significantly advance technological capabilities across industries, driving innovation and creating solutions that were once deemed unattainable. This multidisciplinary field continues to evolve, promising new advancements that will further transform technology and its applications in daily life and industry.
1. Increased Speed and Bandwidth
Photonics technology enables the transmission of data at speeds significantly faster than traditional electronic devices. This advantage is crucial in an era where the demand for high-speed internet and data processing is ever-increasing. Photonics facilitates the handling of vast amounts of data efficiently, making it essential for future communications and computing.
2. Energy Efficiency
One of the most compelling benefits of photonics is its energy efficiency. Photonic devices consume less power compared to their electronic counterparts, leading to lower energy costs and reduced carbon footprint. This efficiency makes photonics an environmentally friendly technology, aligning with global efforts to combat climate change.
3. Greater Precision and Flexibility
Photonics offers unmatched precision in a wide range of applications, from medical devices to manufacturing. The technology's ability to focus light beams down to the nanometer scale allows for incredibly precise operations, which is vital in surgeries and the production of microelectronics. Additionally, photonics provides flexibility in terms of the wavelengths that can be used, enabling a broader range of applications than traditional technologies.
4. Enhanced Security
The use of light in photonics provides a higher level of security for data transmission. Photonic systems are inherently more difficult to intercept or hack compared to electronic systems, making them ideal for sensitive communications. This enhanced security is crucial for government, military, and financial applications where data integrity is paramount.
While evaluating the different suppliers make sure to check the following criteria:
1. Technological Expertise
Ensure they have a strong background in photonics technology, including the latest advancements and applications.
2. Production Capabilities
Assess their ability to meet your quantity needs without compromising quality.
3. Quality Assurance
Look for certifications and standards compliance that guarantee the reliability and performance of their products.
4. Customization Options
The supplier should be flexible in adapting products to fit specific requirements.
5. Supply Chain Reliability
Evaluate their supply chain for robustness and the ability to deliver products on time.
6. After-Sales Support
Confirm they offer comprehensive technical support and warranty services.
7. Cost Effectiveness
While quality is paramount, ensure their pricing is competitive and provides value for money.
Photonics, the science of light generation, manipulation, and detection, has transformative applications across numerous industries. In the telecommunications sector, photonics underpins the development of faster, more reliable fiber optic communication systems. These systems facilitate high-speed internet and telecommunications services, crucial for businesses operating in the digital age. In the healthcare industry, photonics technology plays a pivotal role in medical diagnostics and treatment. Advanced imaging techniques like optical coherence tomography rely on photonics for non-invasive, real-time imaging of tissue, aiding in early disease detection and management. Additionally, laser surgery and photodynamic therapy represent photonics-based treatments offering precision and reduced recovery times. Manufacturing benefits significantly from photonics through laser cutting and welding systems. These tools enable high precision in processing materials, ranging from metals to polymers, enhancing efficiency and reducing waste. Photonics also drives innovation in additive manufacturing (3D printing), where laser sintering processes are crucial for creating complex components. Lastly, in the agricultural sector, photonics technologies are employed for precision farming. Sensors and imaging systems help monitor crop health, optimize resource use, and increase yields. This application of photonics supports sustainable farming practices by providing detailed insights into crop conditions and environmental factors. These examples underscore the versatility and impact of photonics across various B2B contexts, highlighting its importance in driving innovation and efficiency.
Photonics, a branch of technology centered on the generation, control, and detection of photons, is at varying Technology Readiness Levels (TRLs) depending on the specific application. For advanced telecommunications and data processing, photonics is at a high TRL, around 7 to 9, because these areas have seen extensive deployment of photonics in fiber optics and high-speed internet technologies. This maturity is due to the successful integration of photonic components that are reliable, efficient, and have been rigorously tested in real-world conditions. On the other hand, in emerging fields like photonic computing and quantum communication, photonics occupies a lower TRL, typically between 3 and 5. These lower levels are attributed to ongoing challenges in scaling the technology for practical use, achieving operational stability, and addressing the complexities of interfacing photonic systems with existing electronic devices. The technical reasons for this disparity in TRLs across photonics applications include the intricate fabrication processes of photonic circuits, the need for high precision in optical alignment, and the difficulty in miniaturizing components without compromising their performance. Consequently, while photonics is revolutionizing certain sectors, its full potential across a broader spectrum of applications is still being developed, reflected in its varied TRLs.
In the short-term, the photonics industry is set to experience significant advancements in high-speed data communication technologies. With the increasing demand for faster and more reliable data transmission, photonics will play a crucial role in enhancing fiber optic networks and data centers. The development of more efficient and compact photonic chips is expected, which will considerably boost the speed and performance of optical communication systems. Moving into the mid-term, photonics technology will expand its influence in healthcare and life sciences. Advancements in biophotonics are anticipated to revolutionize medical diagnostics and treatment, offering non-invasive methods for early detection of diseases and precise delivery of therapies. The integration of photonics in medical devices will lead to portable, cost-effective solutions for patient care, with significant improvements in imaging systems and laser surgeries. Looking at the long-term horizon, photonics is poised to become a cornerstone in quantum computing and sensing technologies. The exploration of quantum photonic systems is expected to yield breakthroughs in computational power, enabling complex problem-solving far beyond the capabilities of current technologies. Photonics will also enhance sensing and metrology, providing unprecedented precision in fields such as astronomy, environmental monitoring, and defense. The synergy between photonics and quantum technologies will open new frontiers in science and engineering, heralding a new era of technological innovation.
Some interesting questions that has been asked about the results you have just received for Photonics
What are related technologies to Photonics?
Based on our calculations related technologies to Photonics are Magnets, Printed Electronics, Industrial Amplifiers, Electronic Transducers, Electronic Oscillators
Who are Start-Ups in the field of Photonics?
Start-Ups who are working in Photonics are OpenLight
Which industries are mostly working on Photonics?
The most represented industries which are working in Photonics are Manufacturing, Hardware, Science and Engineering, Information Technology, Consumer Electronics
How does ensun find these Photonics Manufacturers?
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.
