Revealing the reason behind jet formation at the tip of laser optical fiber

Revealing the Reason Behind Jet Formation at the Tip of Laser Optical Fiber
The observation of water jets in experiments and the schematics of the jet formation mechanism. Credit: Junnosuke Okajima, Tohoku University

When an optical fiber is immersed in liquid, a high-temperature, high-speed jet is discharged. Researchers expect this to be applied to medical treatment in the future. Now, a research team from Russia and Japan has explored this phenomenon further and revealed the reasons behind the jet formation.


Lasers using a thin optical fiber and combined with an endoscope and catheter can be easily transported into deep areas of the body or inside blood vessels. Traditionally, affected areas or lesions are removed by generating heat inside the tissue through laser absorption—a process known as the photothermal effect.

Yet, hydrodynamical phenomena, such as microbubble formation or high-speed jet generation from the optical fiber, show immense medical promise.

The process of jet formation happens when the laser is irradiated to the water, causing

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Revealing the reason behind jet formation at the tip of laser optical fiber — ScienceDaily

When an optical fiber is immersed in liquid, a high temperature, high speed jet is discharged. Researchers expect this to be applied to medical treatment in the future. Now, a research team from Russia and Japan has explored this phenomenon further and revealed the reasons behind the jet formation.

Lasers using a thin optical fiber and combined with an endoscope and catheter can be easily transported into deep areas of the body or inside blood vessels. Traditionally, affected areas or lesions are removed by generating heat inside the tissue through laser absorption — a process known as the photothermal effect.

Yet, hydrodynamical phenomena, such as microbubble formation or high-speed jet generation from the optical fiber, show immense medical promise.

The process of jet formation happens when the laser is irradiated to the water, causing the water to boil and a vapor bubble to form at the tip of the optical

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Based on optical matter, new machines could be used to move and manipulate tiny particles — ScienceDaily

Researchers have developed a tiny new machine that converts laser light into work. These optically powered machines self-assemble and could be used for nanoscale manipulation of tiny cargo for applications such as nanofluidics and particle sorting.

“Our work addresses a long-standing goal in the nanoscience community to create self-assembling nanoscale machines that can perform work in conventional environments such as room temperature liquids,” said research team leader Norbert F. Scherer from the University of Chicago.

Scherer and colleagues describe the new nanomachines in Optica, The Optical Society’s (OSA) journal for high-impact research. The machines are based on a type of matter known as optical matter in which metal nanoparticles are held together by light rather than the chemical bonds that hold together the atoms that make up typical matter.

“Both the energy for assembling the machine and the power to make it work come from light,” said Scherer. “Once

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Physicists and chemists engineer optical fibers with 2D materials — ScienceDaily

At the latest since the Nobel Prize in Physics was awarded for research on graphene in 2010, 2D materials — nanosheets with atomic thickness — have been a hot topic in science.

This significant interest is due to their outstanding properties, which have enormous potential for a wide variety of applications. For instance, combined with optical fibres, 2D materials can enable novel applications in the areas of sensors, non-linear optics, and quantum technologies. However, combining these two components has so far been very laborious. Typically, the atomically thin layers had to be produced separately before being transferred by hand onto the optical fibre. Together with Australian colleagues, Jena researchers have now succeeded for the first time in growing 2D materials directly on optical fibres. This approach significantly facilitates manufacturing of such hybrids. The results of the study were reported recently in the journal on materials science Advanced Materials.

Growth

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Roccat put optical switches in an ultralight gaming mouse for $60

roccat-burst-pro-presspic-011

The Burst Pro has a translucent body to let its lights shine through. 


Roccat

PC gaming peripheral brand Roccat is following up its release of its first keyboards built with its own optical switches with a pair of gaming mice using those same switches. Like the new Vulcan Pro keyboards announced on Sept. 23, the $60 Burst Pro and $30 Burst Core mice use the company’s new Titan Optical switch that the company says registers mouse clicks up to 100 times faster than standard traditional mechanical gaming mice. UK pricing is £50 for the Pro and £25 for the Core; pricing wasn’t available for Australia but converts to AU$84 and AU$42. 

Both mice weigh in at 68 grams (2.4 ounces) and have the same ergonomic symmetrical shape. Roccat used a honeycomb frame to cut down on weight but then covered them with a translucent shell to keep dust and other

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Gigabit Passive Optical Network (GPON) Market Technology Advancement and Future Scope Till 2025

The MarketWatch News Department was not involved in the creation of this content.

Sep 25, 2020 (Market Insight Reports) —
The report titled “Gigabit Passive Optical Network (GPON) Market” report will be very useful to get a stronger and effective business outlook. It provides an in-depth analysis of different attributes of industries such as trends, SWOT analysis, policies, and clients operating in several regions. The qualitative and quantitative analysis techniques have been used by analysts to provide accurate and applicable data to the readers, business owners, and industry experts.

The Gigabit Passive Optical Network (GPON) market was valued at 20500 Milion US$ in 2019 and is projected to reach 30700 Million US$ by 2025, at a CAGR of 6.0% during the forecast period.

Click the link to get a Sample Copy:

https://www.marketinsightsreports.com/reports/03141149076/global-gigabit-passive-optical-network-gpon-market-insights-forecast-to-2025/inquiry?Source=MW&Mode=47

The report presents the market competitive landscape and a corresponding detailed analysis of the major vendor/key

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Optical Fiber Composite Overhead Ground Wire (OPGW) Market : Rising Trends with Top Countries Data, Technology and Business Outlook 2020 to 2026

The MarketWatch News Department was not involved in the creation of this content.

Sep 24, 2020 (The Expresswire) —
Optical Fiber Composite Overhead Ground Wire (OPGW) Market” is valued at 592 million USD in 2020 is expected to reach 808.5 million USD by the end of 2026, growing at a CAGR of 4.5% during 2021-2026, According to New Research Study. 360 Research Reports provides key analysis on the global market in a report, titled “Optical Fiber Composite Overhead Ground Wire (OPGW) Market by Types (Layer Stranding Structure OPGW, Central Tube Structure OPGW), Applications (Below 66KV, 66KV~110KV, 110KV~220KV, 220KV~330KV, 330~500KV, More than 500KV) and Region – Global Forecast to 2026” Browse Market data Tables and Figures spread through 122 Pages and in-depth TOC on Optical Fiber Composite Overhead Ground Wire (OPGW) Market.

COVID-19 can affect the global economy in three main ways: by directly affecting production and demand, by creating

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The impact of COVID-19 on Free-Space Optical Communications Technology Market 2020 Key Players, Industry Overview, Supply Chain and Analysis to 2026

The MarketWatch News Department was not involved in the creation of this content.

Sep 22, 2020 (The Expresswire) —
The GlobalFree-Space Optical Communications Technology Market2020 Global Industry Size, Share, Forecasts Analysis, Company Profiles, Competitive Landscape and Key Regions 2026 Analysis, Latest Innovations, Impacting Factors, Deep-dive data Market have observed a rapid increase It additionally discussions approximately the market size of different segments and their boom components alongside with increase trends, diverse stakeholders like investors, Research Methodology, Top Manufactures, CEOs, traders, suppliers, Director, President, Research and media, SWOT analysis i.e. Strength, Weakness, Opportunities and Threat to the enterprise and More Understand about Free-Space Optical Communications Technology Market.

Key Questions Addressed by the Report:-

Free-Space Optical Communications Technology Market Classify the problem areas in your business Prospects

Free-Space Optical Communications Technology Market trend Understand the wants of current customers

Free-Space Optical Communications Technology market Categorize new business opportunities and moving market

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Securing the zero DPPM Holy Grail with advanced optical inspection technology

Securing the zero DPPM Holy Grail with advanced optical inspection technology

Press release

Despite the disruptions brought about by COVID-19 globally, Automotive Technology is still progressing in leaps and bounds, especially in the electric vehicle (EV) segment. Latest research from Statista shows the adoption rates of EV projected to reach 30% of total market share by Year 2030, and driving the power electronics market with 6% CAGR till year 2023.

This is a good sign for the demand in automotive components but automotive industry quality remains of utmost importance, with 100% inspection of all products as the norm, and a drive toward the goal of zero defective parts per million (zero DPPM). Current quality assurance approaches in the industry are becoming challenging, especially with the impact of COVID-19. It is currently heavily dependent on human inspection, with variations in judgement standards between human operators, not

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