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Millersville, United States
101-250 Employees
1983
We are a world leading photonics engineering group; experts in the technology of light. We provide components and subsystems critical to the functioning and differentiation of our customers’ systems. G&H is a photonics technology business headquartered in Ilminster Somerset, UK with operations in the USA and Europe. We work with OEM customers worldwide, providing optical systems, assemblies and components often deployed in harsh environments. Our engineering is driving innovation and change in many areas of application and markets. Over seven decades we have built a reputation for supplying products that are hard to make, are of a high quality, and have a long in-service lifetime.
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Lithium Niobate Wafers
... We offer a variety of sizes and thickness of Lithium Niobate Wafers with wafer diameters ranging from 75 to 125 mm. ...
Lausanne, Switzerland
1-10 Employees
We offer Multi Project Wafer (MPW) runs that are either base-on or compatible with our PDK stack.
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Luxtelligence
... A pure-play open-access Lithium Niobate (LiNbO3) ...
Gettysburg, United States
1-10 Employees
2001
Optilab offers the most unique and innovative photonics and fiber optic products on the market today. Optilab collaborates and partners with many customers to create customizable products specific to the customer’s wants and needs. We provides the in-stock availability and price for each product, as well as important product information, data sheets, test data, and more. Optilab delivers its state-of-the-art products to customers all over the world. We always apply the most updated technologies and scientific systems to revolutionize our products with exceptional performance and top of the line quality. You can always count on Optilab to provide you with the most advanced and trustworthy devices available. These inventive products go through a series of complex processes to ensure top of the line development. As a leader in fiber optic and photonics solutions, Optilab owns and operates the largest online source for lasers, photodiodes, fiber optics, EDFAs, test instruments, photonics devices, and more.
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1550nm Intensity Modulator, Lithium Niobate, 20GHz, PM Fiber Input, SM – optilab
... 1550nm Intensity Modulator, Lithium Niobate, 20GHz, PM Fiber Input, SM Fiber Output, ...
Fuzhou City, China
501-1000 Employees
1988
In 2008 CASTECH successfully completed IPO in Shenzhen stock exchange. CASTECH manufactures a wide range of high precision aspherial, acylindrical, spherical, cylindrical, transmission or reflection diffraction gratings, lithographic optics and other flat optics components for customers from Industries of Laser, Telecom, LiDAR, AR/VR, biomedical instruments and analysis instruments. We are flexible in customized products and features in high surface accuracy up to 1/40 wave, high surface quality up to 10-5 scratch/dig, and low surface roughness up to 1 angstrom. We are also well experienced in the high laser damage threshold coating by our unique proprietary technology. CASTECH has been recognized throughout the optics industry for its outstanding quality and high reliability which comes from our sustaining rigorous quality control. CASTECH is committed to satisfying the requirements of customers through continual improvement of its quality management system including ISO 9001-Quality Management System, IAFT 16949-Automotive Quality Management System, ISO 14001-Health and Safety Management System, and ISO 45001-Environmental Management Systems. After more than 30 years' rapid growth since the foundation in 1990, CASTECH INC. With more than thirty years' untiring effort, CASTECH has developed flux, Czochralski, water solution and Bridgman-Stockbarger crystal growing technology, now is a worldwide leading supplier with largest mass production lines in the world for LBO, BBO, Nd:YVO4 and KTP.
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LiNbO3 - Lithium Niobate
... LiNbO3 - Lithium Niobate ...
Cambridge, United States
1-10 Employees
2018
Being a part of the HyperLight team provides you the flexibility to grow and learn, while succeeding in a fast-paced, revolutionary environment. HyperLight’s scalable photonic integrated circuits (PICs) provide disruptive advantages for customers needing high bandwidth and low power electro-optic solutions, including data center, telecommunications, radio communication, sensing, and LiDAR applications. Using a streamlined rapid prototyping to volume manufacturing process, the PICs are customized and are produced in volume based on their specific use. These powerful devices offer high bandwidth, low insertion loss, high extinction ratio, low-drive voltages, and the ability to handle high optical powers, which are desired for high-speed modulation systems.
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HyperLight
... HyperLight unleashes the potential of integrated photonics by developing a proprietary platform based on thin-film lithium niobate (TFLN) ...
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Lithium Niobate (LiNbO3) Sputtering Targets
... SCI Engineered Materials™ offers our Lithium Niobate Sputtering targets in rotatable, round & rectangular options, including as Indium bonded assemblies. ...
Albuquerque, United States
1001-5000 Employees
1984
EMCORE Corporation is the leading independent* provider of advanced inertial navigation products serving the aerospace & defense, commercial and industrial markets. We are a pioneer and leading innovator of fiber optic, ring laser gyro, and MEMS technologies for a broad range of navigation applications. EMCORE’s advanced technologies for Navigation & Inertial Sensing are leading the way in aerospace & defense navigation in a new era of increasing threats from hostile foreign powers and anti-democratic forces. EMCORE has vertically-integrated manufacturing capability at its facilities in Alhambra, CA, Budd Lake, NJ, Concord, CA, and Tinley Park, IL. EMCORE is committed to fostering an environment where employees can contribute and grow. EMCORE's Photonic Integrated Chip (PIC) Reinvents Fiber Optic Gyro Technology. EMCORE's IPADS Inertial System Meets Today’s Demanding Battlefield Survey Needs. EMCORE's TACNAV® Systems are Deployed by Militaries Around the World.
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Fiber Optic Gyroscope 1550 nm Lithium Niobate Modulator Module
... EMCORE’s PB3050 Fiber Optic Gyro (FOG) 1550 nm Lithium Niobate Modulator Module is a high-performance, ruggedized fiber optic gyroscope LiNbO3 modulator that provides a high level of vacuum insensitivity making it ideally suited for a broad range of adverse environmental fiber optic ...
Columbus, United States
11-50 Employees
SRICO specializes in the use of electro-optics, nonlinear optics, and ferroelectric materials to create innovative optical chip-based products. SRICO also provides research and development, custom product design, and fabrication services. SRICO’s PPLN wavelength converters operate from visible to mid-IR. High Power Handling Devices SRICO’s proprietary Zn diffused waveguides are capable of handling 1Watt optical power. SRICO offers unique, photonic-based solutions to challenging problems in electrical measurement and RF signal transmission. SRICO’s integrated optic sensors and fiber optic link products transmit electrical data with interference-free, high fidelity. Our award-winning engineering team brings extensive expertise in integrated optics, electro-optic materials, optoelectronics, fiber optics, electrical and electronic engineering. Thin Film Lithium Niobate (TFLN™) Optical Modulators SRICO’s micron-thin TFLN™ modulators are compact ultra high bandwidth, low voltage devices ideal for integration with Si platforms.
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Products - SRICO
... Plug & Play Fiber-coupled Nonlinear Optical PPLN Wavelength Converters Model 2000 Periodically Poled Lithium Niobate (PPLN) Waveguide Devices Bulk ...
Frankfurt, Germany
1-10 Employees
Wir liefern Ihnen die Materialen, um es zu realisieren.
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Lithium Niobate - Alineason
... Lithium Niobate - ...
Johannesburg, South Africa
1-10 Employees
2007
The Directors of SabiNano boast of extensive know-how and professional knowledge in the development and application of carbon nanomaterials (e.g., multiwalled CNTs, doped CNTs, graphene, graphene oxide, carbon spheres) and diverse forms of other nanostructured materials (e.g., nanocellulose, electrospun nanofibers, nano-titanium dioxide, etc) with a wide range of dimensions (shapes and sizes). SabiNano’s offices and manufacturing facilities and laboratories are currently located inside Mintek* in Strijdom Park, Randburg, Johannesburg, South Africa. Our vision is to create new wealth through the manufacturing and supply of high-quality carbon-based nanomaterials and speciality chemicals/products, technologies, and services in Africa and beyond, creating thousands of sustainable employment opportunities. Our mission is to be a leading producer and supplier of high-quality carbon nanomaterials (e.g. SabiNano consists of a growing team of professionals that is committed to utilizing its expertise to add value to the attainment of the company’s vision and mission through the execution of different roles that comprise of management, technical, and advisory. SabiNano’s directors are well-versed in the research and development of carbon-based nanomaterials for research and industrial applications which enables them to seamlessly contribute to innovation by harnessing nanotechnology. We also provide nanotech laboratory analytical services for a wide range of industries including chemicals, energy, automobile, coatings, water/wastewater treatment, advanced materials, mining, electronics, amongst others. The company was founded in 2008 but officially became fully operational in 2018 with support from the Industrial Development Corporation (IDC).
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Lithium Niobate Sputtering Targets - Sabinano
... Lithium Niobate Sputtering Targets - ...
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Some interesting numbers and facts about the results you have just received for Lithium Niobate
| Country with most fitting companies | United States |
| Amount of fitting manufacturers | 24 |
| Amount of suitable service providers | 14 |
| Average amount of employees | 11-50 |
| Oldest suiting company | 1983 |
| Youngest suiting company | 2018 |
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Lithium niobate (LiNbO<sub>3</sub>) is a crystalline material that belongs to the group of ferroelectric compounds, distinguished by its unique electro-optic, piezoelectric, and photorefractive properties. This compound is formed from lithium (Li), niobium (Nb), and oxygen (O), creating a structure that is particularly adept at manipulating light and sound waves, making it invaluable in a variety of technological applications. One of the most significant uses of lithium niobate is in the realm of telecommunications, where it serves as a core material in the development of modulators, which are devices that encode information onto a light wave for fiber optic communication. Its ability to efficiently convert electrical signals into optical ones with minimal loss of data fidelity makes it indispensable for high-speed internet and data transmission services. Additionally, lithium niobate is used in the fabrication of surface acoustic wave (SAW) devices, which are critical components in mobile phones and television receivers for signal processing. The material’s nonlinear optical properties also enable its use in laser frequency doubling, where it converts infrared laser light into visible light, hence its application in laser technologies. The versatility and exceptional characteristics of lithium niobate continue to make it a subject of extensive research, driving advancements in photonics, acoustics, and optical communications.
1. Exceptional Electro-Optic Properties
Lithium Niobate is renowned for its superior electro-optic coefficients, which make it highly effective in modulating light. This property is crucial for applications in telecommunications, where signals are frequently converted between electrical and optical forms.
2. High Nonlinear Optical Coefficients
Due to its significant nonlinear optical coefficients, Lithium Niobate excels in frequency doubling or generating second harmonic generation (SHG) signals. This capability is beneficial for laser technology, allowing for the efficient conversion of laser light to different wavelengths.
3. Wide Transparency Range
Lithium Niobate has a broad optical transparency range, spanning from the ultraviolet to the mid-infrared spectrum. This wide range enables its use in a variety of optical applications, including infrared detectors and waveguide technologies.
4. Robust Piezoelectric Effect
The material exhibits a strong piezoelectric effect, which is advantageous in the fabrication of acoustic wave devices. These devices are essential in filters and oscillators for radio frequency applications, showcasing Lithium Niobate's versatility across different technological domains.
While evaluating the different suppliers make sure to check the following criteria:
1. Quality of Material
Ensure the supplier provides high-grade Lithium Niobate with minimal defects, as material quality directly impacts the performance of your applications.
2. Purity Levels
Verify the purity level of Lithium Niobate, as higher purity is essential for specific high-precision optical and electronic applications.
3. Customization Options
Check if the supplier offers customization in terms of shapes, sizes, and orientations to meet your specific project requirements.
4. Supply Capacity
Assess the supplier's ability to meet your quantity demands without compromising on quality, especially for large-scale productions.
5. Technical Support
Confirm the availability of expert technical support to address any queries or issues related to the use of Lithium Niobate in your projects.
6. Cost-Effectiveness
Compare pricing among suppliers to ensure you are receiving the best value for your investment without sacrificing quality or service.
7. Delivery Timelines
Evaluate the supplier's reliability in meeting delivery schedules, as delays can significantly impact your project timelines.
Lithium Niobate is extensively utilized in the telecommunications industry due to its exceptional electro-optic properties. It serves as a core material in the development of modulators and switches, essential components in fiber optic networks. These devices rely on Lithium Niobate to convert electronic signals into optical signals, facilitating high-speed, long-distance communication with minimal loss of data integrity. In the realm of electronics, Lithium Niobate finds application in surface acoustic wave (SAW) devices. These components are integral to various wireless communication devices, including mobile phones and satellite communications systems. The material's piezoelectric properties enable it to generate and receive acoustic waves, transforming electrical signals into mechanical vibrations, and vice versa, enhancing signal processing capabilities. Beyond telecommunications, Lithium Niobate is making strides in the renewable energy sector, specifically in non-linear optics. It is pivotal in the development of frequency doublers and optical parametric oscillators, which are crucial for laser technology used in cutting-edge research and industrial applications. These applications range from precision machining and medical diagnostics to fundamental research in physics, where high-intensity laser beams are required. Each of these use cases underscores Lithium Niobate's versatility across industries, from enhancing communication technologies to facilitating advancements in renewable energy and high-precision manufacturing. Its unique physical properties make it an invaluable resource in the ongoing development of high-tech solutions.
Lithium niobate, a versatile material widely recognized for its electro-optic, piezoelectric, and nonlinear optical properties, currently spans various Technology Readiness Levels (TRLs), primarily ranging from TRL 4 to TRL 7, depending on its application. In the realm of telecommunications and photonics, for instance, lithium niobate modulators, which convert electronic signals into optical signals, have achieved TRL 7, indicating their integration into operational systems. This advanced TRL is attributed to the material's proven reliability in modulating light efficiently, a critical function in fiber optic communication networks. Conversely, in emerging applications such as quantum computing and non-volatile memories, lithium niobate is at a lower TRL, around 4 to 5. This is due to ongoing research and development efforts aimed at understanding and optimizing its unique properties, such as the precise control of photon entanglement and the enhancement of data storage capabilities. These technical challenges, including material synthesis, domain engineering, and integration with other semiconductor technologies, necessitate further experimental validation and optimization to elevate lithium niobate's TRL in these nascent areas. Therefore, the specific TRL of lithium niobate is strongly influenced by the maturity of its application field, reflecting the direct correlation between technical advancements and readiness levels.
In the short-term, advancements in Lithium Niobate technology are poised to revolutionize telecommunications through enhanced electro-optic modulators. These developments aim to improve data transmission speeds significantly, making broadband services more efficient and accessible. Researchers are focusing on refining fabrication processes to reduce costs and increase the adaptability of Lithium Niobate in various optical devices. Looking into the mid-term horizon, we expect to see Lithium Niobate's integration into renewable energy systems, particularly in piezoelectric energy harvesting devices. This phase will exploit its exceptional piezoelectric properties to convert mechanical energy into electrical energy more efficiently, supporting the sustainability goals of various industries. Innovations in material synthesis are anticipated to enhance its energy conversion rates, marking a significant step forward in green energy technologies. In the long-term, the potential application of Lithium Niobate in quantum computing represents a groundbreaking shift. Its unique physical properties are likely to be harnessed for developing more stable and coherent quantum bits (qubits), laying the foundation for quantum computers that far surpass the capabilities of today's classical computers. This phase will focus on overcoming current barriers in qubit coherence times and operational temperatures, aiming to unlock new possibilities in computational speed and security.
Some interesting questions that has been asked about the results you have just received for Lithium Niobate
What are related technologies to Lithium Niobate?
Based on our calculations related technologies to Lithium Niobate are Glass, Superconductors, High-Performance Materials, Raw Materials, Phase Change Materials
Which industries are mostly working on Lithium Niobate?
The most represented industries which are working in Lithium Niobate are Manufacturing, Science and Engineering, Hardware, Professional Services, Consumer Electronics
How does ensun find these Lithium Niobate 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.
