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符合「optical communication」新聞搜尋結果, 共 33 篇 ,以下為 1 - 24 篇 訂閱此列表,掌握最新動態
Xinhua Silk Road: Optical communication firm in Shandong's Rizhao expects buoyant sales in 2024

BEIJING, April 22, 2024 /PRNewswire/ -- In a workshop operated by Azuri Optics Technologies Co., located in Rizhao, east China's Shandong Province, a busy scene plays out behind buzzing machines, with optical modules rolling off the assembly line one by one after more than 20 procedures, including assembly, testing, packaging, etc. In the face of major breakthroughs and changes in the global optical communication industry in recent years, Azuri Optics Technologies Co. stepped up efforts to increase research and development (R&D) investment and speed up technological innovation. As the first independently developed communication chip project in Rizhao City, the firm, which commenced production in 2020, saw its product sales exceed 70 million last year, according to a report by Rizhao Daily, a local newspaper.  It is expected that the company's sales will reach 200 million yuan this year, almost triple that of in 2023. The firm has won a foothold in the global market with its optical chip-related products sold to many overseas countries. It is learned that the firm's optical chip-related products stands out among international counterparts due to their competitive prices and high reliability, which are recognized by the world's well-known equipment manufacturers and operators. Li Wen, the firm's general manager, noted that mastering hard core technologies and having the ability to independently manufacture key processes is the only way for companies to maintain high-quality development and gain a firm foothold in the fierce market competition. Original link: https://en.imsilkroad.com/p/339805.html

文章來源 : PR Newswire 美通社 發表時間 : 瀏覽次數 : 1538 加入收藏 :
Huawei Launches the Industry's First End-to-End OSU Product Portfolio, Building a Reliable Optical Communication Base for Industries

BARCELONA, Spain, March 1, 2023 /PRNewswire/ -- During the Mobile World Congress (MWC) 2023, Huawei launched the industry's first End-to-End Optical Service Unit (OSU) product portfolio running on the fifth-generation fixed network (F5G). The product portfolio builds a reliable optical communication base for industries such as energy and transportation. Vincent Liu, President of Huawei's Global Enterprise Network Marketing & Solutions Sales Dept Industries such as energy and transportation are crucial to economic growth and quality of life. As a basic component of the production system, the communication network needs to be secure and reliable to support these industries. Industry digitalization is deepening, and we will need production communication networks with higher bandwidth to support emerging services such as automated inspection of power lines, smart power distribution, intelligent highway monitoring, and intelligent toll stations. Vincent Liu, President of Huawei's Global Enterprise Network Marketing & Solutions Sales Dept, said, "By using Optical Service Unit (OSU) — the fifth-generation Native Hard Pipe (NHP) technology, Huawei has developed an End-to-End NHP network solution and launched an End-to-End OSU product portfolio from backbone networks to access networks. This solution provides a secure and reliable optical communication base for production management services, real-time control services, and integrated data services." Huawei's End-to-End OSU product portfolio includes fully upgraded optical transport devices of the OptiXtrans E9600/E6600 series, optical access devices of the OptiXaccess EA5800 series, the newly launched industrial CPE device OptiXstar E810, and the intelligent timing IoT gateway OptiXstar T823E-T.   Huawei End-to-End NHP network solution has the following features: Ensuring production security using End-to-End native hard pipes: Time division multiplexing (TDM) technology provides isolation of services by using OSU native hard pipes from the backbone layer to the access layer, with zero interference and zero blocking between services. This ensures production services are secure and reliable. Providing future-oriented ultra-high bandwidth: Mainstream Synchronous Digital Hierarchy (SDH) technology on the live network supports up to 10 Gbit/s bandwidth, while OSU can provide bandwidth of up to 800 Gbit/s per wavelength and 96 Tbit/s per fiber to accelerate digital and intelligent services. Inheriting traditional services with forward compatibility: Huawei's 6-in-1 optical transport platform is fully compatible with Pulse code modulation (PCM), Plesiochronous digital hierarchy (PDH), and SDH services on the live network. This compatibility enables sustainable development of existing service systems and reduces investment costs. Simplifying backbone O&M by unified management: OSU services improve O&M efficiency by 50%. They support one-click service provisioning, one-click fault locating, and network-wide service visualization and management from backbone networks to access networks. Huawei's NHP solution has won wide acclaim in the energy and transportation industries. It has been deployed by customers in more than 80 countries and regions around the world to help build a reliable optical communication base for industries.For more information about Huawei's NHP solution, visit https://e.huawei.com/en/solutions/enterprise-optical-network/industry-optical-transport-network. CONTACT:hwebgcomms@huawei.com  

文章來源 : PR Newswire 美通社 發表時間 : 瀏覽次數 : 598 加入收藏 :
MicroCloud Hologram Inc. Develops Quantum Nonlinear Optical Holography Technology to Assist in the Generation of Spatial Entangled Qudits

SHENZHEN, China, Jan. 14, 2025 /PRNewswire/ -- MicroCloud Hologram Inc. (NASDAQ: HOLO), ("HOLO" or the "Company"), today announced the development and application of Quantum Nonlinear Optical Holography (QNOH) technology to directly generate spatially entangled qudits. This technology leverages the Spontaneous Parametric Down-Conversion (SPDC) process in quantum optics, precisely shaping the spatial quantum correlations of entangled photon pairs within a two-dimensional patterned nonlinear photonic crystal, without the need for complex pump shaping. This innovation not only breaks through the limitations of traditional optics but also offers unprecedented application prospects for quantum key distribution (QKD) and quantum computing based on spatial degrees of freedom. Quantum Nonlinear Optical Holography technology combines the advantages of quantum optics, nonlinear optics, and holography, aiming to directly shape the spatial properties of quantum photons through nonlinear optical processes. Traditional nonlinear optical holography has been widely applied in the field of classical optics, particularly in areas such as information storage, beam control, and optical communication. However, its application in the quantum domain has been relatively scarce, as shaping quantum states typically requires higher precision and more complex interventions. The key innovation of Quantum Nonlinear Optical Holography technology is its ability to directly generate spatially entangled qudits through the Spontaneous Parametric Down-Conversion process, overcoming the limitations of conventional quantum optical techniques. A qudit is a high-dimensional quantum system, which, compared to the traditional qubit, has more degrees of freedom and can store more information. Therefore, it holds greater promise for applications in quantum computing and quantum communication. The core implementation of HOLO's Quantum Nonlinear Optical Holography technology relies on the Spontaneous Parametric Down-Conversion process. In this process, a single high-energy photon enters a nonlinear optical medium (such as a BBO crystal) and, through interaction with the crystal, splits into two lower-energy photons, which are referred to as the signal photon and the idler photon. These two photons exhibit quantum entanglement, meaning their states are tightly correlated, regardless of the spatial distance between them. Unlike traditional quantum optical technologies, this technique uses a two-dimensional patterned nonlinear photonic crystal. In such a crystal, photons can be precisely controlled in predefined spatial degrees of freedom. By manipulating the patterned structure of the crystal, the spatial quantum correlations of the entangled photon pairs can be directionally shaped, thereby generating the desired quantum states. What sets HOLO's Quantum Nonlinear Optical Holography technology apart is that it does not require complex pump light shaping. Traditional quantum optical systems typically rely on specific shapes and frequency adjustments of the pump light source to ensure that the generated quantum states meet the desired criteria. However, QNOH technology achieves direct manipulation of the spatial properties of entangled photon pairs by controlling the structure and material properties of the nonlinear photonic crystal, making the process more efficient and stable. In traditional quantum information processing, the quantum bit (qubit) is widely used as the basic unit. However, the computational and storage capacity of a qubit is limited by its binary states (0 or 1). In contrast, a qudit (a high-dimensional quantum system) can process information in higher dimensions, offering greater potential for quantum computing and quantum communication. One of the biggest breakthroughs of HOLO technology is its ability to generate spatially entangled qudits. By precisely controlling the design of the photonic crystal, the technical team successfully endowed photon pairs with multiple degrees of freedom within a two-dimensional space, allowing each entangled photon pair to move beyond traditional binary states and expand into higher dimensions. These quantum states can manifest as different quantum modes and frequencies, significantly enhancing the capacity and diversity of the quantum system. HOLO's Quantum Nonlinear Optical Holography technology generates spatially entangled qudits through the following steps: Photon Source Selection and Control: Through the precisely designed nonlinear photonic crystal, an appropriate pump light source is chosen to excite the signal and idler photons in the Spontaneous Parametric Down-Conversion process. These photon pairs are highly entangled and can be precisely controlled in spatial degrees of freedom. 2D Patterned Crystal Design: A two-dimensional patterned nonlinear photonic crystal is used to control the propagation paths and interactions of photons within the crystal, allowing the spatial quantum correlations of the signal and idler photon pairs to be shaped according to design requirements. This structure not only enhances the stability of quantum entanglement but also enables information encoding and decoding across different dimensions. Shaping Spatial Quantum Correlations: By adjusting the phase and amplitude at different positions within the photonic crystal, the spatial correlations of the generated entangled photon pairs are ensured to match the desired quantum state. This allows the quantum information of the photons to be transmitted in a more efficient and multidimensional manner. Quantum State Verification: Experimental verification shows that the quantum states generated by this technology not only possess spatial quantum correlations but also violate the Clauser-Horne-Shimony-Holt (CHSH) inequality, proving their entangled nature. According to the fundamental principles of quantum mechanics, the violation of this inequality indicates the authenticity of quantum information and the validity of quantum entanglement. The successful development of HOLO's QNOH technology has brought a significant breakthrough to the fields of quantum key distribution (QKD) and quantum communication. Entanglement-based quantum key distribution is one of the core technologies in quantum communication today, ensuring the security of key exchange through the properties of quantum entanglement. The high-dimensional entangled qudits generated by the QNOH technology can provide higher key transmission rates and stronger resistance to interference, thereby enhancing the security and efficiency of quantum communication networks. Additionally, HOLO's QNOH technology is also noteworthy for its application in quantum computing. Since quantum computing can process information in high-dimensional quantum states, the generation of qudits will greatly improve the parallelism and efficiency of quantum computing. Traditional quantum computing uses quantum bits for computation, while high-dimensional qudits can store more information and perform more complex computational tasks, thereby accelerating the execution of quantum algorithms. HOLO's Quantum Nonlinear Optical Holography technology not only brings new possibilities to quantum communication and quantum computing but also paves the way for the future development of quantum information science. In the future, as this technology continues to improve, it may find broader applications in fields such as quantum networks, quantum encryption, and quantum simulation. In future research, optimizing the design of two-dimensional photonic crystals to further enhance the efficiency and stability of spatially entangled qudit generation will become a key issue in the field of quantum optics. Meanwhile, Quantum Nonlinear Optical Holography technology is also expected to integrate with other quantum technologies, such as quantum sensing and quantum imaging, opening up more application scenarios in the field of quantum science. The successful development of Quantum Nonlinear Optical Holography technology marks a significant advancement in the field of quantum optics. By precisely generating spatially entangled qudits, this technology offers a fresh perspective and more powerful tools for various fields, including quantum communication, quantum computing, and quantum information processing. As quantum technology continues to mature, quantum networks and quantum computers in the future are expected to enter a new era of greater efficiency and security, driven by this innovative technology. About MicroCloud Hologram Inc. MicroCloud is committed to providing leading holographic technology services to its customers worldwide. MicroCloud's holographic technology services include high-precision holographic light detection and ranging ("LiDAR") solutions, based on holographic technology, exclusive holographic LiDAR point cloud algorithms architecture design, breakthrough technical holographic imaging solutions, holographic LiDAR sensor chip design and holographic vehicle intelligent vision technology to service customers that provide reliable holographic advanced driver assistance systems ("ADAS"). MicroCloud also provides holographic digital twin technology services for customers and has built a proprietary holographic digital twin technology resource library. MicroCloud's holographic digital twin technology resource library captures shapes and objects in 3D holographic form by utilizing a combination of MicroCloud's holographic digital twin software, digital content, spatial data-driven data science, holographic digital cloud algorithm, and holographic 3D capture technology. For more information, please visit http://ir.mcholo.com/ Safe Harbor Statement This press release contains forward-looking statements as defined by the Private Securities Litigation Reform Act of 1995. Forward-looking statements include statements concerning plans, objectives, goals, strategies, future events or performance, and underlying assumptions and other statements that are other than statements of historical facts. When the Company uses words such as "may," "will," "intend," "should," "believe," "expect," "anticipate," "project," "estimate," or similar expressions that do not relate solely to historical matters, it is making forward-looking statements. Forward-looking statements are not guarantees of future performance and involve risks and uncertainties that may cause the actual results to differ materially from the Company's expectations discussed in the forward-looking statements. These statements are subject to uncertainties and risks including, but not limited to, the following: the Company's goals and strategies; the Company's future business development; product and service demand and acceptance; changes in technology; economic conditions; reputation and brand; the impact of competition and pricing; government regulations; fluctuations in general economic; financial condition and results of operations; the expected growth of the holographic industry and business conditions in China and the international markets the Company plans to serve and assumptions underlying or related to any of the foregoing and other risks contained in reports filed by the Company with the Securities and Exchange Commission ("SEC"), including the Company's most recently filed Annual Report on Form 10-K and current report on Form 6-K and its subsequent filings. For these reasons, among others, investors are cautioned not to place undue reliance upon any forward-looking statements in this press release. Additional factors are discussed in the Company's filings with the SEC, which are available for review at www.sec.gov. The Company undertakes no obligation to publicly revise these forward-looking statements to reflect events or circumstances that arise after the date hereof.

文章來源 : PR Newswire 美通社 發表時間 : 瀏覽次數 : 94 加入收藏 :
LG Innotek Reasserts Its Leadership in the Future Mobility Market at CES 2025

Exhibition booth attracts 65,000 cumulative visitors, showcasing innovative mobility components Innovative technologies presented through a 'User-Centric storytelling' approach elicit strong acclaim, inquiries from visiting customers ensue SEOUL, South Korea, Jan. 13, 2025 /PRNewswire/ -- On the 13th, LG Innotek (CEO Moon Hyuksoo) announced that it successfully staged its exhibition at CES 2025 held in Las Vegas, USA. Visitors at LG Innotek's CES 2025 Exhibition Booth Situated at the entrance of the West Hall of the Las Vegas Convention Center (LVCC), LG Innotek's exhibition booth attracted a steady stream of visitors from its opening on the first day of the CES event, on January 7th (local time). Visitors at LG Innotek's CES 2025 Exhibition Booth During the four-day exhibition period that lasted until the 10th, more than 65,000 visitors were recorded at the LG Innotek booth. Many visitors showed great interest, leading to product inquiries and on-the-spot meeting requests. A company representative said, "This year, we prominently displayed a 1,800-inch large-scale video advertisement in the Main Hall of the West Hall and a 9-meter-tall banner at the booth entrance, effectively enhancing brand awareness and exhibition promotion." At CES 2025, LG Innotek focused its exhibition on the theme of mobility to solidify its position as a 'Total Solution Provider' in the global market for future mobility. In particular, LG Innotek designed its open booth with a sleek, futuristic black aesthetic, showcasing not only a future vehicle mockup but also its new brand identity, 'ENABLE THE NEXT', and the slogan, 'YOUR ASPIRATION, OUR INNOVATION.' At the center of the exhibition booth, the future vehicle mockup displayed 15 key components for sensing, communication, and lighting. Additionally, the high-value vehicle lighting module, Nexlide A+, which won the CES 2025 Innovation Award, garnered significant attention. LG Innotek Nexlide showcased at CES 2025 In the expanded private booth, which was 30% larger than the previous year, various innovative and integrated solutions combining optical, communication, and automotive technologies were presented through an immersive User-Centric storytelling approach, receiving positive feedback. Among these, the RGB-IR In-Cabin Camera Module, unveiled for the first time at CES 2025, stood out. This camera can monitor driver conditions, such as detecting drowsiness, and alert the driver immediately. An LG Innotek employee demonstrating the In-Cabin Camera Module at CES 2025 Unlike conventional models, this new module features a 150-degree field of view, enabling simultaneous monitoring of the driver, front passenger, and rear passengers. It integrates a 5-megapixel RGB camera, an IR camera for low-light environments, and a 3D camera that supports facial recognition for functions like login and payment. When a driver logs in using facial recognition, settings such as radio channels and air conditioning levels, adjusted by previous drivers, are automatically switched to the new driver's preferences. A North American customer said, "It's impressive how such advanced features, which enhance convenience for drivers, are incorporated into a single small camera module." The innovation of 'Nexlide Vision,' developed with LG Innotek's proprietary vehicle lighting technology, also drew attention. Combining pixel lighting and smart film technology, this product can implement pixels, surfaces, and lines simultaneously. For instance, by writing a desired message on the adjacent pad, the text instantly appears on the vehicle's lighting grill. This innovative application demonstrated how advanced communication capabilities can be integrated into vehicle lighting. A customer who experienced Nexlide Vision's lettering feature said, "If an emergency stop is required while driving, it's possible to use Nexlide Vision to communicate specific reasons to following vehicles, potentially preventing accidents. LG Innotek's technology is truly remarkable." Furthermore, LG Innotek's comprehensive lineup of mobility solutions, including the Next-Generation Digital Key Solution, Vehicle AP Module, All-Weather Camera Solution, and the groundbreaking B-Link, which combines a wireless Battery Management System (BMS) with a Battery Junction Box (BJB), were prominently showcased at CES 2025. CEO Moon Hyuksoo stated, "Through CES 2025, LG Innotek has further strengthened its position as a leader in future mobility components. We will continue to deliver innovative solutions that provide differentiated value to customers and grow as the reliable technology partner enabling our customer's aspiration." LG Innotek CEO Moon Hyuksoo  

文章來源 : PR Newswire 美通社 發表時間 : 瀏覽次數 : 145 加入收藏 :
APE 2025: Paving the Way for Global Photonics Innovation and Collaboration

In the wave of rapid global technological advancement, the photonics industry stands out as a leader in the next-generation information technology. As a driving force behind strategic sectors like the digital economy, intelligent manufacturing, and green development, the market size of photonics industry continues to expand, and its influence escalates day by day. According to the latest market analysis, the global photonics market reached $1.4 trillion in 2023, reflecting a 10% year-on-year growth. Asia dominates this market with a 63% share, underscoring its central role, while China, as the regional leader, is expected to reach $550 billion—39% of the global total—demonstrating significant growth potential. Amidst this dynamic landscape, the Asia Photonics Expo (APE), as the most influential photonics event in Asia, has undoubtedly become the center of attention for global professionals in the field. Scheduled to take place from February 26 to 28, 2025, at the Sands Convention and Exhibition Centre in Singapore, APE 2025 will continue to adhere to the mission of " Shaping the Future of Photonics, Propelling Industry Innovation." It offers a prime platform for industry leaders to showcase cutting-edge technologies, share insights, and expand their global reach. The event will spotlight advances in optical communication, optics, semiconductors, lasers, sensing, infrared, quantum technology, and display technologies, ensuring an exciting experience for all attendees. Don't miss out on this extraordinary event, register now to join this grand gathering! Quantum Singapore Zone: Pioneers of Quantum Innovation Quantum technology is at the forefront of a new wave of technological revolution, and Singapore is strategically positioning itself as an innovation hub in Asia. The Quantum Singapore 2025 initiative is designed to enhance Singapore's capabilities in quantum technology and research. In this context, the APE 2025 Quantum Singapore Zone has been established to showcase Singapore's latest achievements and innovations in the quantum field. Expected exhibitors in the quantum zone will include Anritsu, Anyon Technologies, Archer Materials, Diraq, Fujitsu, Korea Quantum Computing (KQC), Nomad Atomics, Oxford Instruments, Q-CTRL, QuEL, QuEra Computing Inc., Quantum Art, Quantum Brilliance, Quantum Machines, Quantum Source Labs, Quantum Transistors Technology Ltd., QuantumCTek, Qunova Computing, SHI Cryogenics Group, Silicon Quantum Computing, SpinQ, and Ulvac Cryogenics, etc. We cordially invite you to join the APE 2025 Quantum Singapore Zone to showcase the latest breakthroughs in quantum technology, explore collaboration opportunities, and drive business growth. *Above companies are listed in alphabetical order. Singapore Pavilion: A Shining Gem of Photonics Innovation Singapore, recognized as an innovation hub for photonics technology in Asia and beyond, will showcase its robust R&D capabilities and industrial strengths at APE 2025. The Singapore Pavilion will present a range of industry-leading innovations, from precision optical components to advanced optical communication solutions, and from semiconductor manufacturing equipment to quantum information technologies. To further enhance the participation of Singapore companies, the Singapore government is offering up to 70% subsidies for exhibitors, significantly reducing costs and attracting more high-quality companies to join APE 2025. Notable exhibitors in the Singapore Pavilion include Acexon, Bote Optics, Dymek, Evatec, JD Union, Laser 21, Mitutoyo, Optical Gaging, Opto Precision, OptoSigma, Panasonic, Precision Technologies, Sintec Optronics, Trioptics, WKK Distribution, Wavelength Opto-Electronic, and Yokogawa Engineering. These esteemed companies will engage with global visitors through live demonstrations and technical presentations, sharing their latest technological breakthroughs and market applications.  *Above companies are listed in alphabetical order. Europe Pavilion: A Seamless Blend of Technique and Art Europe, a cradle of photonics technology, has long been at the forefront of the global photonics industry, thanks to its rich technical heritage and innovative spirit. In 2025, the APE organising committee will once again collaborate with prominent partners such as W3+, IVAM, and EPIC (European Photonics Industry Consortium) to create the Europe Pavilion. This pavilion will showcase a remarkable array of products and solutions, ranging from high-precision optical measurement equipment to cutting-edge laser processing technologies, as well as innovative optical materials and advanced AR/VR technologies. Industry leaders such as Chroma Technology, dopa, HOLOEYE Photonics, Heidelberg Instruments, I-Photonics, and IMT Masken und Teilungen AG will come together to present their latest achievements in the photonics field. They will also engage with partners from Asia and around the world to discuss future trends in photonics technology. *Above companies are listed in alphabetical order. Japan Pavilion: The Art of Precision Craftsmanship Japan, renowned worldwide for its craftsmanship, also excels in the field of photonics technology. At APE 2025, a Japan Pavilion will make its debut, featuring a collaboration with prominent Japanese companies such as AGC Asia Pacific, Cybernet Systems, Disco-Hi Tec, and SWCC. This pavilion will showcase their unique strengths in precision optical lenses, high-performance optical communication devices, and advanced laser technologies. Internationally recognized photonics companies will join in APE 2025, engaging with global visitors through live demonstrations and interactive discussions to share the latest advancements and market applications of Japanese photonics technology. *Above companies are listed in alphabetical order. APE 2025: The Indispensable Photonics Event APE 2025 is not just a platform for showcasing photonics technology; it is also a vital bridge for fostering global collaboration and exchange within the photonics industry. The event will host a variety of industry forums, technical seminars, and site tours to the R&D centres of universities and companies, offering great chances for exhibitors and attendees to gain insights into industry trends, grow their networks, and discover new partners. APE 2025 will also spotlight innovative zones for AR/VR, astrophotography, quantum technology, and other cutting-edge areas, showcasing the latest tech and products in photonics. This will drive industry innovation and support the growth and advancement of the sector. >>>Check more concurrent events here. In today’s rapidly evolving landscape of photonics technology, APE 2025 undoubtedly serves as a pivotal platform for professionals worldwide to come together and collaborate on future developments. We warmly invite elites from the global photonics industry to join us in Singapore to explore the limitless possibilities of photonics technology and collectively drive the prosperity of the global photonics sector. As part of our excitement for the event, we are pleased to announce a special campaign: successfully invite over 2 friends or colleagues to sign-up for APE 2025 through your designated link by November 26, you will get a chance to win a $100 Amazon gift voucher or l local equivalent, check HERE to know more about this campaign. Join us for an inspiring experience that connects you with the global photonics industry as we explore endless opportunities together. We eagerly anticipate welcoming you and your colleagues to this remarkable gathering!  

文章來源 : 深圳賀戎博聞展覽有限公司 發表時間 : 瀏覽次數 : 161 加入收藏 :
2025 年 2 月 14 日 (星期五) 農曆正月十七日
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