Researchers demonstrate the first chip-based 3D printer

Imagine a portable 3D printer you could hold in the palm of your hand. The tiny device could enable a user to rapidly create customized, low-cost objects on the go, like a fastener to repair a wobbly bicycle wheel or a component for a critical medical operation. Researchers from MIT and the University of Texas at Austin took a major step toward making this idea a reality by demonstrating the first chip-based 3D printer. Their proof-of-concept device consists of a single, millimeter-scale photonic chip that emits reconfigurable beams of light into a well of resin that cures into a solid shape when light strikes it. The prototype chip has no moving parts, instead relying on an array of tiny optical antennas to steer a beam of light. The beam projects up into a liquid resin that has been designed to rapidly cure when exposed to the beam's wavelength of visible light.

Read more.

Silicon Photonics Market Size, Growth, Trends, Analysis and Future Business Competition 2034: SPER Market Research

Silicon photonics is an emerging technology that is gaining popularity due to the need for faster data transmission rates and bandwidth-intensive applications. It has gained interest in data centres and telecoms, where it provides high-speed data transfer, low power consumption, and seamless integration with current silicon-based electronics. Silicon photonics has also been investigated as an optical interconnect solution, with the goal of replacing existing copper-based interconnects in data centres and supercomputers. 

According to SPER market research, ‘Global Silicon Photonics Market Size- By Component, By Product, By Application - Regional Outlook, Competitive Strategies and Segment Forecast to 2034’ state that the Global Silicon Photonics Market is predicted to reach 28.87 billion by 2034 with a CAGR of 28.51%. 

Drivers: 

Technological advancements in semiconductor fabrication are important for silicon photonics. Integrating photonics and electronics on the same chip improves performance and lowers costs. Innovations like FinFET and 3D integration allow the production of silicon photonics devices with more accuracy and at reduced costs. These developments lead to smaller and more efficient photonic components, increasing their use in telecommunications, data centers, and consumer electronics. 

The growth of telecommunications networks, especially with 5G, is boosting the silicon photonics market. 5G needs higher bandwidth and faster data transmission, which silicon photonics provides through its speed and efficiency, supporting high-capacity optical links essential for 5G and future technologies. 

Request a Free Sample Report: https://www.sperresearch.com/report-store/silicon-photonics-market?sample=1

Restraints: 

Thermal effects are a concern in the silicon photonics market as devices get smaller and more complex. These effects occur when silicon absorbs light, raising the device's temperature. This rise in temperature can reduce performance or lead to device failure. A key issue is integrating electronic and photonic components on the same chip, as heat from electronic parts can affect photonic parts, and high-powered lasers can cause thermal damage.  

North America dominated the market and accounted for the largest revenue share in 2024 due to the region's major development and adoption of silicon photonics technology. Trends include significant investments in research and development, collaborations between academia and industry, and the presence of leading companies. The region focuses on innovations in higher data rates, improved energy efficiency, and advanced applications like quantum computing and sensing. Some significant market players are Intel Corporation, Cisco Systems, Inc, DAS Photonics, Hamamatsu Photonics K.K, IBM Corporation, STMicroelectronics N.V, and others.

For More Information, refer to below link: –  

Silicon Photonics Market Growth

Related Reports:  

Video Surveillance Market Growth, Size, Trends Analysis – By Component, By Vertical, By System - Regional Outlook, Competitive Strategies and Segment Forecast to 2034

Shortwave Infrared (SWIR) Market Growth, Size, Trends Analysis - By Offering, By Imaging Type, By Technology, By Vertical- Regional Outlook, Competitive Strategies and Segment Forecast to 2034

Follow Us – 

LinkedIn | Instagram | Facebook | Twitter

Contact Us: 

Sara Lopes, Business Consultant — USA 

SPER Market Research 

[email protected] 

+1–347–460–2899

Soaring Demand for Silicon Photonics Driven by Wide Range of Applications – Markets Estimated to Reach USD 6 Billion by 2032

The silicon photonics market is estimated to grow at a remarkable Compound Annual Growth Rate (CAGR) of over 26.0% between 2022 and 2032. This indicates that the market is anticipated to perform spectacularly in the years to come. It is anticipated that this quickly growing industry would be valued at around USD 1.3 billion in 2022 and USD 6 billion by 2032.

A state-of-the-art technique that use silicon as an optical medium is called silicon photonics. Due to its potential to increase data transmission speeds and internet bandwidth, silicon photonics has attracted a lot of interest from several industries. This method, which builds photonic integrated circuits by fusing silicon and laser, is quickly becoming a standard feature of modern electronic devices.

The demand for silicon photonics products has witnessed an upsurge across diverse sectors, including consumer electronics, IT, and telecommunications. This demand is primarily driven by the need for faster data transmission, greater bandwidth, and reduced power consumption. In recent years, products like silicon photonic transceivers have gained popularity as they offer the potential to achieve faster data transmission rates while consuming less power.

One of the prominent applications of silicon photonics is in high-performance computers and data centers, which are experiencing an unprecedented surge in demand due to the growing adoption of cloud computing. As data traffic increases across businesses, there is a pressing need for faster data transmission solutions such as silicon photonics. Consequently, data center operators are increasingly embracing technologies like CMOS integrated silicon photonics to meet this demand effectively.

Silicon Photonics Market: Drivers & Restraints

The largest market for global silicon photonics market is data communication, as the protocol is providing services which is surpassing optical and copper technologies. The government providing financial support and the growing demand for the transference of data is driving the growth of global silicon photonics market.

Demand for global silicon photonics market is also driven by covering distance or data rates which have not been provided by vertical cavity surface-emitting lasers (VCSELs), providing faster data rates while maintaining low cost. Various constraints for the global silicon photonics market are high cost as the companies have to develop the Computer-aided engineering/Computer-aided design (CAE/CAD) on their own and competition with VCSEL which is available at a low cost.

Silicon Photonics Market: Region-wise Outlook

In terms of region, North America has the highest market for silicon optical modulators and wavelength division multiplexer filters. North America is becoming an attractive destination for the companies to launch the silicon photonics market due to government support and increase in demand for the data transfer but Asia-Pacific has the highest CAGR for global silicon photonics market due to rising population, increase in urbanization and growing demand for data transfer.

Market Competition

Some of the key participants present in the global silicon photonics market include Infinera, NeoPhotonics, Avago Technologies, Luxtera, Mellanox Technologies, OneChip Photonics, Cisco, Skorpios Technologies, Photline Technologies among others.

These market leaders are always spending in R&D operations in order to introduce innovative goods with efficient features. For example, Ranovus Inc., a major manufacturer of multi-terabit interconnect solutions for data centres and communications networks, will unveil an advanced silicon photonic device in March 2020. Aside from that, they are expanding their global presence through various growth strategies such as partnerships, the establishment of facilities in desirable regions, and collaborations.

Key Segments Profiled in the Silicon Photonics Industry Survey

Products:

Silicon Optical Modulators

Wavelength Division Multiplexer Filters

Silicon Photo-Detectors

Silicon Photonic Waveguides

Others (silicon led, silicon optical interconnects etc.)

Application:

Telecommunications

Datacom

High performance Computer (HPC) and Data Centers

Medical

Sensing and Instruments

Defense/Aerospace Industries

Research and Development

Others (consumers-connecting PCs with HDTVs and desktop PC devices, commercial video, etc.)

Region:

North America

Latin America

Western Europe

Eastern Europe

APEJ

Japan

Middle East & Africa

New research shows previously unknown way light interacts with matter

New research shows previously unknown way light interacts with matter #research #photoemission #semiconductor #silicon #photon #optical

In a recent issue of ACS Nano, researchers have discovered a previously unknown way that light interacts with matter. In the finding, photons can obtain substantial momentum, much like electrons in solid material, when confined to nanometer-scale spaces within silicon. This discovery may lead to improved solar panels, LEDs, lasers, and a variety of other technological advancements. The paper’s…

View On WordPress

Discovering the Brilliant World of Silicones in Photonics

Silicon photonics is a tech for making optical and electronic combined circuits on silicon microchips. Since 1998, R&D has been conducted at key corporate research institutes. In the past few years, silicon photonics have gotten traction because the growth of communication tech has surged the demand for fast and effective transmission and reception of information. And some businesses, with recent research, have lately moved into the commercialization phase and initiated to offer and make silicon photonics items. 

The silicon photonics market is witnessing growth and is projected to reach USD 8,475.1 million by 2030. 

Photonic Integrated Circuits Can Operate with Less Light Energy Than Optical Units

Compared to an optical unit that operates between optical elements arranged on housing, a photonic integrated circuit can operate with minute light energy because of its structure combining integrated micro-optical elements. In addition, it takes advantage of the strong optical confinement effect of the photonic crystal structure, which miniaturizes the device and requires less optical energy.

Silicones

Let's just understand what silicones are, before jumping to their application. Silicones are polymers that comprise oxygen silicon, hydrogen, and carbon. They are popular for their diverse properties like thermal stability, flexibility, and water repellence. Such features make them appropriate for numerous applications, from medicinal devices to cosmetics. But what do they have to do with photonics?

Silicones and Light

In the world of photonics, silicones have discovered a vital role as optical materials. Their transparency to noticeable and near-infrared light fortifies them to be the best candidate for photonics applications. One main area where silicones are most useful is in the development of optical waveguides.

Waveguides

Waveguides are structures that direct light along a precise path, similar to how an optical fiber does. Silicones are utilized to make supple and simply bendable waveguides, permitting complex and compact designs. This suppleness is mainly beneficial in applications where tight spaces and multifaceted geometries are intricated.

Why Choose Silicones?

The features of silicones that make them perfect for photonics are their less optical loss and best thermal steadiness. Optical loss denotes the quantity of light that is gone as it commutes via a material. Silicones have negligible optical loss, which is vital for upholding the integrity of the conveyed signal in photonics devices. Moreover, their thermal steadiness guarantees that the performance of the devices stays reliable even under fluctuating temperature conditions.

Applications 

The combination of photonics and silicones has directed exciting novelties. Silicones are utilized in the making of light-based radars, such as those for sensing biological molecules or ecological contaminants. Such sensors depend on the communication between light and the substances being sensed. The compatibility and transparency of silicones with biological samples make them a brilliant choice for these applications.

A Bright Future Ahead

The trip of silicones in photonics has only just been initiated. Scientists and technologists are incessantly discovering paths to advance the features of silicones and advance their addition to photonics devices. As tech advances, we can project to see even more creative working of silicones, contributing to the development of photonics.

Source: P&S Intelligence

Sam Sholtis - Making light 'feel' a magnetic field like an electron would:

Light #MagneticField #PhotonicCrystal #Silicon #LandauLevels #Dispersion #Holography #Photonics #Physics

Light momentum turns pure silicon from an indirect to a direct bandgap semiconductor

UC Irvine-led research reveals that the optical properties of materials can be dramatically enhanced—not by changing the materials themselves, but by giving the light new properties. The researchers demonstrated that by manipulating the momentum of incoming photons, they could fundamentally change how light interacts with matter. One striking example from their findings is that the optical properties of pure silicon, a widely used and essential semiconductor, can be enhanced by an astonishing four orders of magnitude. This breakthrough holds great promise to transform solar energy conversion and optoelectronics at large. The study, featured as the cover story of the September issue of ACS Nano, was conducted in collaboration with Kazan Federal University and Tel Aviv University.

Read more.

Data Center Silicon Photonic Module

Silicon Photonics Market (SiPh) Size, Share, Statistics and Industry Growth Analysis Report with Recession Impact Analysis by Product (Transceivers, Switches, Sensors), Application (Data Centers & High-Performance Computing, Telecommunications)

Silicon Photonics Market 2031: Emerging Trends, Healthy CAGR and Future Perspectives

Industry Overview of Silicon Photonics

Straits Research has added a new report titled, “Global Silicon Photonics Market Professional Report 2031” to its vast repository of research reports. This is a comprehensive report focused on the current and prospects of the Global Silicon Photonics Market. The report also mentions the impact of the coronavirus pandemic on the market. Furthermore, the study includes the steps the leading industry players have taken to recover the losses (if any).

The global silicon photonics market size is growing at a CAGR of 27.84% during the forecast period (2023–2031).

The report on the Global Silicon Photonics Market offers data from previous years along with an in-depth analysis from 2023 to 2031 based on revenue (USD Billion). Besides, the report offers a comprehensive analysis of the factors driving and restraining the growth of the market coupled with the impact they have on the demand over the forecast period.

Request Sample Report of Global Silicon Photonics Market @ https://straitsresearch.com/report/silicon-photonics-market/request-sample

3S Photonics

Finisar Corporation

Luxtera

IBM Corporation

Hewlett-Packard Co.

Mellanox Technologies

Phoenix Software Inc.

Oracle Corporation

Infinera Inc.

Das Photonics

The market is segmented into different sections such as: by product type, by technology type, by application, by end-users, by deployment mode, and by key geography. The report then employs market breakdown and data triangulation procedures to complete the overall market engineering process and arrive at the exact statistics for all segments and sub-segments. The report on the Global Silicon Photonics Market has been curated by analyzing the top players functioning in the market. To get an in-depth analysis of the market, the report carried out a SWOT analysis, Porter’s five forces analysis, and Pestel analysis.

Market Segmentation:

By Component

Active

Passive

By Industry

Telecommunications

Aerospace

Military and Defence

Medical and Life Sciences

This report forecasts revenue growth at the global, regional, and local levels and provides an analysis of the most recent industry trends from 2023 to 2031 in each of the segments and sub-segments. In addition, the report highlights the impact of COVID-19 on the Global Silicon Photonics Market and how the market is undertaking measures to reduce the losses. Some of the major geographies included in the market are given below:

North America(S., Canada)

Europe(K., Germany, France, Italy)

Asia Pacific(China, India, Japan, Singapore, Malaysia)

Latin America(Brazil, Mexico)

Middle East & Africa

Buy Now: https://straitsresearch.com/buy-now/silicon-photonics-market

Key Questions Answered in the Report:

What is the current scenario of the Global Silicon Photonics Market?

How is the market going to prosper throughout the next 6 years?

What are the emerging technologies that are going to profit the market?

What are the historical and current sizes of the Global Silicon Photonics Market?

Which segments are the fastest growing and the largest in the market? What is their market potential?

What are the driving factors contributing to the market growth during the short, medium, and long term? What are the major challenges and shortcomings that the market is likely to face? How can the market solve the challenges?

What are the major strategies adopted by the leading players to expand their market shares?

Latest Related Reports

https://bemorepanda.com/en/posts/1703075278-ai-in-logistics-market-strategies-planning-for-future-growth-and-sustainability

Contact Us

Email: [email protected] Address: 825 3rd Avenue, New York, NY, USA, 10022 Tel: +1 646 905 0080 (U.S.), +44 203 695 0070 (U.K.)

About Straits Research

Straits Research is dedicated to providing businesses with the highest quality market research services. With a team of experienced researchers and analysts, we strive to deliver insightful and actionable data that helps our clients make informed decisions about their industry and market. Our customized approach allows us to tailor our research to each client's specific needs and goals, ensuring that they receive the most relevant and valuable insights.

The Silicon Photonics Revolution: Charting the Market's Unparalleled Growth

The Silicon Photonics Market is poised for remarkable growth in the coming years, with a staggering Compound Annual Growth Rate (CAGR) of over 26.0% projected between 2022 and 2032. This burgeoning market is estimated to have been valued at approximately US$ 1.3 Billion in 2022 and is anticipated to surpass the US$ 6 Billion mark by 2032.

Silicon photonics, a revolutionary technology that utilizes silicon as an optical medium, has gained significant traction across various industries due to its potential to enhance data transfer capabilities and significantly boost internet bandwidth capacity. This technology, which integrates laser and silicon to create photonic integrated circuits, is becoming a cornerstone of modern electronic devices.

The demand for silicon photonics products has witnessed an upsurge across diverse sectors, including consumer electronics, IT, and telecommunications. This demand is primarily driven by the need for faster data transmission, greater bandwidth, and reduced power consumption. In recent years, products like silicon photonic transceivers have gained popularity as they offer the potential to achieve faster data transmission rates while consuming less power.

–Don’t Miss Out on Valuable Insights – Download Sample! : https://www.futuremarketinsights.com/reports/sample/rep-gb-651

One of the prominent applications of silicon photonics is in high-performance computers and data centers, which are experiencing an unprecedented surge in demand due to the growing adoption of cloud computing. As data traffic increases across businesses, there is a pressing need for faster data transmission solutions such as silicon photonics. Consequently, data center operators are increasingly embracing technologies like CMOS integrated silicon photonics to meet this demand effectively.

Silicon Photonics Market: Drivers & Restraints

The largest market for global silicon photonics market is data communication, as the protocol is providing services which is surpassing optical and copper technologies. The government providing financial support and the growing demand for the transference of data is driving the growth of global silicon photonics market.

Demand for global silicon photonics market is also driven by covering distance or data rates which have not been provided by vertical cavity surface-emitting lasers (VCSELs), providing faster data rates while maintaining low cost. Various constraints for the global silicon photonics market are high cost as the companies have to develop the Computer-aided engineering/Computer-aided design (CAE/CAD) on their own and competition with VCSEL which is available at a low cost.

Silicon Photonics Market: Region-wise Outlook

In terms of region, North America has the highest market for silicon optical modulators and wavelength division multiplexer filters. North America is becoming an attractive destination for the companies to launch the silicon photonics market due to government support and increase in demand for the data transfer but Asia-Pacific has the highest CAGR for global silicon photonics market due to rising population, increase in urbanization and growing demand for data transfer.

Request for Methodology @ https://www.futuremarketinsights.com/request-report-methodology/rep-gb-651

Market Competition

Some of the key participants present in the global silicon photonics market include Infinera, NeoPhotonics, Avago Technologies, Luxtera, Mellanox Technologies, OneChip Photonics, Cisco, Skorpios Technologies, Photline Technologies among others.

These market leaders are always spending in R&D operations in order to introduce innovative goods with efficient features. For example, Ranovus Inc., a major manufacturer of multi-terabit interconnect solutions for data centres and communications networks, will unveil an advanced silicon photonic device in March 2020. Aside from that, they are expanding their global presence through various growth strategies such as partnerships, the establishment of facilities in desirable regions, and collaborations.

Key Segments Profiled in the Silicon Photonics Industry Survey

Products:

Silicon Optical Modulators

Wavelength Division Multiplexer Filters

Silicon Photo-Detectors

Silicon Photonic Waveguides

Others (silicon led, silicon optical interconnects etc.)

Application:

Telecommunications

Datacom

High performance Computer (HPC) and Data Centers

Medical

Sensing and Instruments

Defense/Aerospace Industries

Research and Development

Others (consumers-connecting PCs with HDTVs and desktop PC devices, commercial video, etc.)

Region:

North America

Latin America

Western Europe

Eastern Europe

APEJ

Japan

Middle East & Africa

Jabil Invests In The Future Of AI With Intel Silicon Photonics Transceiver Deal

Global leader in supply chain, manufacturing, and design solutions Jabil Inc. (NYSE: JBL) has revealed a big development in its operations. The existing Silicon Photonics-based pluggable optical transceiver product lines from Intel, also referred to as modules, will be manufactured and sold by Jabil, while future generations of these modules will be developed by Jabil as well. By responding to the changing demands of data centers, such as hyperscale, next-wave, and AI cloud data centers, Jabil hopes to strengthen its position in the market.

Jabil's Senior Vice President of Cloud and Enterprise Infrastructure, Matt Crowley, stressed the significance of this agreement in tackling the particular difficulties presented by intricate data center settings. Jabil is dedicated to providing cutting-edge solutions that meet the dynamic needs of the data center ecosystem. Jabil will be able to increase its footprint in the data center value chain thanks to the cooperation with Intel.

Jabil is well-positioned to make it easier for enterprises to create and implement cutting-edge optical networking solutions thanks to its photonics business unit. They provide full photonics capabilities, such as simplified supply chain management, system assembly, and component design. This action demonstrates Jabil's dedication to offering comprehensive optical networking solutions for data centers.

By entering into this deal with Jabil, Intel Corporation said it was happy to be working with a top-tier supplier. Intel's focus will shift to silicon photonics components for both established markets and new applications, and it will work closely with Jabil, customers, and suppliers to ensure a smooth transition. This shift will provide Intel the opportunity to focus on silicon photonics components, with Jabil handling the development and manufacturing of optical transceiver modules.

Read More - https://bit.ly/46WLnE6