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trendingreportz · 2 months

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Diode Laser Market - Forecast (2024-2030)

Diode Laser Market Overview:

Diode Laser Market size is estimated to reach US$18.3 billion by 2030, growing at a CAGR of 12.2% during the forecast period 2024-2030. Demand for high-power laser systems and expansion of the 3D sensing market are expected to propel the growth of Diode Laser market.

Additionally, the increasing integration of diode lasers with other technologies, such as photonics, optics, and electronics. This integration is driven by the demand for more sophisticated and multifunctional devices with enhanced performance and capabilities. By combining diode lasers with complementary technologies, manufacturers can develop innovative solutions that cater to the evolving needs of various industries. For example, integrating diode lasers with advanced optics enables the development of high-resolution imaging systems for medical diagnostics and industrial inspection applications. Similarly, incorporating diode lasers into photonics-based sensors enhances their sensitivity and precision for environmental monitoring and defense applications. This trend towards integration not only expands the range of applications for diode lasers but also fosters collaboration and cross-disciplinary innovation within the broader photonics industry.

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Diode Laser Market - Report Coverage:

The “Diode Laser Market Report - Forecast (2024-2030)” by IndustryARC, covers an in-depth analysis of the following segments in the Diode Laser Market.AttributeSegment

By Category

● Injection laser diode

● Optically pumped semi-conductor laser

By Wavelength

● Near infrared

● Red

● Blue

● Green

● Ultra-violet

● Violet

● Yellow

● Others

By Doping Material

● InGaN

● GaN

● AIGaInP

● GaAIAs

● InGaAs

● InGaAsP

● GaInAsSb

● Others

By Technology

● Double hetero structure lasers

● Quantum well lasers

● Quantum cascade laser

● Distributed feedback lasers

● Separate confinement hetero structure laser diode

● VCSEL

● VECSEL

● External cavity laser diode

● Distributed Bragg reflector laser

● Quantum dot laser

● Interband cascade laser diode

By Industry Vertical

● Automotive

○ Autonomous vehicles

▪ LIDAR

● Defense

○ Anti-aircraft missiles

○ Directed energy weapons

○ Range finding

● Medical

○ Aesthetics

○ Diagnostics

▪ Microcopy

▪ Spectroscopy

▪ Others

○ Surgical treatments

▪ Noninvasive surgeries

▪ Others

○ Photodynamic therapy

● Consumer electronics

○ CD/DVD Players

○ Laser printers

○ Barcode readers

○ Fiber optic communication

● Manufacturing

○ Pulsed laser deposition

○ Micromachining

○ Drilling

○ Welding

○ Others

● Data storage

○ Blu-ray disks

○ Magneto-optical disks

● Communications

● Displays

● Others

By Geography

● North America (U.S., Canada and Mexico)

● Europe (Germany, France, UK, Italy, Spain, Netherlands and Rest of Europe),

● Asia-Pacific (China, Japan, South Korea, India, Australia & New Zealand and Rest of Asia-Pacific),

● South America (Brazil, Argentina, Chile, Colombia and Rest of South America)

● Rest of the World (Middle East and Africa).

COVID-19 / Ukraine Crisis - Impact Analysis:

During the COVID-19 pandemic, the diode laser market experienced both challenges and opportunities. On one hand, disruptions in global supply chains and reduced manufacturing activities due to lockdowns and restrictions affected the production and distribution of diode lasers. Many end-user industries, such as healthcare and manufacturing, faced uncertainties, leading to delayed investments in new technologies, including diode laser systems. Additionally, the heightened focus on disinfection and sterilization in healthcare facilities led to increased demand for laser systems used in sterilization processes, further supporting the diode laser market.

In Ukraine, geopolitical tensions and instability have also impacted the diode laser market. Uncertainty surrounding trade relations and economic conditions may have deterred potential investments and hindered market growth. Additionally, disruptions in supply chains and logistics due to conflicts or political unrest could have affected the availability of raw materials and components necessary for diode laser production. Furthermore, the general atmosphere of uncertainty and risk may have led to cautious spending by businesses in Ukraine, potentially slowing down the adoption of diode laser technologies across various sectors.

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Key Takeaways:

APAC Dominated the Market

Geographically, in the Diode Laser market share, APAC region is analyzed to hold a dominant market share of 42% in 2023. Firstly, APAC countries, particularly China, Japan, and South Korea, are renowned for their strong manufacturing capabilities and technological advancements. These countries have robust semiconductor industries, which form the backbone of diode laser production. Additionally, the presence of a vast network of suppliers, skilled labor force, and supportive government policies has further fueled the growth of the diode laser market in the region. Furthermore, APAC's thriving telecommunications industry has been another key contributor to the growth of the diode laser market. With the rapid expansion of 5G networks and the increasing demand for high-speed internet connectivity, there has been a growing need for diode lasers in fiber-optic communications for data transmission. Countries like China and South Korea are at the forefront of 5G deployment, driving significant investments in telecommunications infrastructure and driving the demand for diode lasers.

Medical is the fastest growing segment

In the Diode Laser Market forecast, medical segment is estimated to grow with a CAGR of 5.5% during the forecast period, due to the increasing adoption of minimally invasive procedures and laser-based treatments in various medical specialties such as dermatology, ophthalmology, and dentistry has fueled the demand for diode lasers. Diode lasers offer precise control, minimal tissue damage, and faster recovery times, making them preferred tools for a wide range of medical applications. Moreover, technological advancements in diode laser systems, including improvements in power output, wavelength options, and beam delivery methods, have expanded their utility in medical procedures. For example, diode lasers are used for procedures such as hair removal, skin resurfacing, cataract surgery, and dental treatments, among others. As medical technologies continue to advance and demand for minimally invasive procedures rises, the growth trajectory of the medical segment is expected to remain strong in the coming years.

● GaAlAs to Hold Largest Market Share

According to the Diode Laser Market analysis, Gallium aluminum arsenide (GaAlAs) doping material segment is estimated to hold the largest market share of 28% in 2023. GaAlAs-based diode lasers exhibit excellent optical and electrical properties, including high quantum efficiency and wavelength stability. These characteristics make them ideal for various applications across industries such as healthcare, telecommunications, and manufacturing. GaAlAs doping material allows for precise control over the emission wavelength of diode lasers, enabling customization to meet specific application requirements. This versatility makes GaAlAs diode lasers suitable for a wide range of applications, from medical procedures to telecommunications infrastructure. Furthermore, advancements in GaAlAs fabrication techniques and production processes have led to cost reductions and improved manufacturing yields, making GaAlAs-based diode lasers more economically viable for widespread adoption.

Demand for High-Power Laser Systems

High-power diode lasers offer advantages such as faster processing speeds, increased cutting and welding depths, and improved productivity. These lasers are used in applications such as metal cutting, welding, surface treatment, and additive manufacturing. The demand for high-power diode lasers is driven by the need for greater efficiency, precision, and cost-effectiveness in industrial processes. Additionally, advancements in diode laser technology, such as improved cooling methods and beam shaping techniques, are further driving the adoption of high-power laser systems. In April 2022, Lumentum introduced the FemtoBlade laser system, which is the second generation of the company's portfolio of high-precision ultrafast industrial lasers. The new system features a modular design, which offers high power at high repetition rates, thus ensuring better flexibility and faster processing speed.

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Expansion of the 3D Sensing Market

The rapid expansion of the 3D sensing market is driving the demand for diode lasers used in applications such as facial recognition, gesture recognition, augmented reality (AR), and virtual reality (VR). Diode lasers are key components in 3D sensing systems, providing the light source for depth sensing and spatial mapping. The increasing integration of 3D sensing technology in smartphones, consumer electronics, automotive, and robotics is fueling the demand for diode lasers. Additionally, advancements in diode laser technology, such as wavelength-tunable lasers and compact laser modules, are enabling the development of smaller, more efficient, and cost-effective 3D sensing solutions. In March 2022, IPG Photonics unveiled LightWELD XR, its handheld laser welding and cleaning product. The LightWELD XR is the third offering from the company in the line and includes an expanded material range including aluminum 6XXX series, nickel alloys, titanium, and copper.

High Initial Investment Hinders the Market Growth

In terms of R&D, companies need to invest substantial resources in conducting research to innovate and improve diode laser technology. This includes funding for research personnel, equipment, materials, and facilities to develop next-generation diode lasers. Additionally, R&D efforts are necessary to adapt diode lasers to meet the evolving demands of different industries and applications, driving innovation and competitiveness in the market. Regulatory compliance is a critical aspect that contributes to the high initial investment in the diode laser market. Diode laser systems used in medical, industrial, and other applications must meet stringent regulatory requirements related to safety, efficacy, and quality assurance. Obtaining regulatory approvals and certifications from regulatory authorities such as the FDA (Food and Drug Administration) in various countries involves significant time, effort, and financial resources. Non-compliance with regulatory requirements can result in delays, fines, or even product recalls, posing financial risks to companies

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Key Market Players:

Product/Service launches, approvals, patents and events, acquisitions, partnerships and collaborations are key strategies adopted by players in the Diode Laser Market. The top 10 companies in this industry are listed below:

Coherent Corp.

Spectra-Physics, Inc. (MKS Instruments, Inc.)

Nichia Corporation

Lumentum Holdings Inc.

Sumitomo Electric Industries, Ltd.

Mitsubishi Electric Corporation

TRUMPF Inc.

Jenoptik AG

Osram Opto Semiconductors GmbH (OSRAM GmbH)

IPG Photonics

#Diode Laser Market #Diode Laser Market size #Diode Laser industry #Diode Laser Market share #Diode Laser top 10 companies #Diode Laser Market report #Diode Laser industry outlook

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marketreports2022 · 6 months

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Advancing Precision: Exploring the Laser Ablation Systems Market Landscape

Overview of the Laser Ablation Systems Market

The laser ablation systems market stands at the forefront of technological innovation, offering advanced solutions for precise material removal in various industries. Laser ablation, a process that involves the removal of material through laser-induced vaporization, finds extensive applications in sectors such as healthcare, electronics, automotive, aerospace, and research institutions. This overview delves into the dynamics driving the growth of this dynamic market.

Market Dynamics

The growth of the laser ablation systems market is propelled by several key factors. Firstly, the increasing demand for high-precision machining processes in manufacturing drives the adoption of laser ablation technology. With its ability to achieve micron-level accuracy and intricate patterning, laser ablation systems are indispensable in industries where precision is paramount.

Furthermore, advancements in laser technology, including the development of ultrafast lasers and novel laser sources, enhance the efficiency and versatility of laser ablation systems. These technological innovations broaden the scope of applications and enable faster processing speeds, thereby expanding the market potential.

Additionally, the growing emphasis on sustainability and environmental responsibility drives the shift towards laser-based processes, which offer advantages such as reduced material wastage, minimal environmental impact, and energy efficiency. This eco-friendly aspect resonates with industries striving to minimize their carbon footprint and adhere to stringent regulatory standards.

Market Segmentation

The laser ablation systems market is segmented based on various parameters, including technology type, application, end-user industry, and geography. Different types of laser systems, such as excimer lasers, femtosecond lasers, and pulsed lasers, cater to specific application requirements across diverse industries. Applications range from micromachining, surface cleaning, and thin-film deposition to medical device manufacturing, semiconductor fabrication, and geological analysis.

Geographically, the market spans regions such as North America, Europe, Asia Pacific, Latin America, and the Middle East & Africa, each characterized by distinct industrial landscapes and market dynamics. Moreover, the market caters to a wide range of end-user industries, including healthcare, electronics, automotive, aerospace, energy, and research institutions, reflecting the broad applicability of laser ablation technology.

Competitive Landscape

The laser ablation systems market is highly competitive, with key players investing in research and development to innovate and differentiate their product offerings. Strategic collaborations, partnerships, and acquisitions are prevalent strategies employed by companies to expand their market presence and gain a competitive edge. Moreover, a focus on providing comprehensive solutions, including integrated software, automation, and support services, enhances customer value proposition and fosters long-term relationships.

Future Outlook

Looking ahead, the laser ablation systems market is poised for continued growth, driven by ongoing technological advancements, expanding applications across industries, and increasing adoption of laser-based processes. As industries continue to prioritize efficiency, precision, and sustainability, laser ablation technology will play a pivotal role in enabling next-generation manufacturing processes and driving innovation across diverse sectors.

In conclusion, the laser ablation systems market presents lucrative opportunities for stakeholders poised to capitalize on the growing demand for advanced material processing solutions. By leveraging cutting-edge technology, fostering innovation, and forging strategic partnerships, companies can position themselves at the forefront of this dynamic market and contribute to its sustained growth and evolution.

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marryp · 2 years

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jakeparalta90 · 2 years

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ftech-laser · 5 years

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Long-pulse 1064 Nd.YAG laser to adapt to the symptoms

The three elements of the laser is the key to the beauty of the skin rejuvenation laser wavelength can determine the role of laser target tissue, pulse width determines the extent of laser damage, the general pulse width is narrower, less heat damage. The energy is the fundamental effect of the laser to produce cosmetic effects, laser beauty in the final analysis is the laser energy contained in a stimulus effect on the skin.

And the laser wavelength, pulse width and other factors, the laser energy output is also a laser cosmetic physician choice laser beauty technology an important reference.

According to the energy output, the laser can be generally divided into the following types:

1, continuous laser The continuous output of the laser energy, such laser selective treatment of the target is not strong.

Mainly include: carbon dioxide laser, argon ion laser.

2, quasi-continuous laser Pulse output, the output pulse frequency is very high, the selectivity of the treatment target is not strong.

Mainly include: copper steam laser, krypton laser and so on.

3, short pulse laser Short pulse output, the pulse width is very short, highly selective for the target role, no significant damage to normal tissues.

Mainly include: Q-turn Zi Cuiyu laser, Q-Q ruby laser, Q-switched Nd.YAG laser.

4, long pulse laser Long pulse energy output, pulse width of 1.5-100ms range. Based on the extension theory of selective photothermal decomposition.

Mainly include: emerald laser, semiconductor laser, Nd.YAG laser, dye laser and so on.

Different energy output, determines the difference in the clinical application of the laser. In recent years, long pulse laser in the clinical field has been widely used, whether the effect or the broadness of the response to the symptoms have been unanimously approved, such as long pulse 1064Nd.YAG laser.

Long pulse 1064 Nd.YAG laser is a branch of long pulse laser produced in clinical applications, able to deal with a variety of skin problems, and today we talk about long pulse 1064ND.YAG laser clinical applications.

Long pulse 1064 Nd.YAG laser clinical indications include the following aspects.

1.Vascular lesions Nd.YAG 1064nm laser is a near-infrared light, its wavelength is long, deep tissue penetration, can penetrate 10mm soft tissue. Since oxyhemoglobin in the blood vessel has strong absorption ability to the laser of the wavelength, the laser can selectively generate heat damage to the blood vessel tissue and cause coagulation and necrosis of the blood vessel tissue, thereby playing a role in treating vascular diseases.

Long pulse 1064Nd.YAG laser advantages:

Contrast with continuous Nd.YAG laser.

The use of continuous Nd.YAG (1064nm) laser treatment of vascular disease has been more than 30 years of history, its easy to leave the characteristics of the scar limits its some use.

Long Pulse Tunable Pulse Width 1064nm Nd.YAG laser overcomes the over-heating of continuous laser, which not only has longer pulse width, effectively coagulates the abnormal blood vessel endothelial cells, but also lower than the tissue thermal relaxation time, Cooling, effectively reducing the temperature of the surrounding tissue, greatly reducing the side effects. Contrast with 595 nm pulsed dye laser.

In Europe and the United States, the 595nm pulsed dye laser is regarded as the clinical “gold standard” for the treatment of cutaneous vascular lesions. It has the wavelength of the third peak of the hemoglobin absorption coefficient curve, but the penetration depth is not enough to be a major defect of 595nm. Due to the complexity of the vascular problems, the complete clearance of the treatment is not high.

Taking into account the long pulse of the 1064nm laser which penetrates the depth and the high absorption coefficient, the long wavelength can directly penetrate deep into the lesion and coagulate deep blood vessels, thereby completely improving the vascular problems.

2.Acne, Acne scars, Inflammatory soreness Long pulse 1064nm laser energy can be transmitted to a specific target within a short period of time, do not spread to the surrounding, so acne formation of dark red nodules, scars and pigmentation, there is a very significant therapeutic effect.

Energy directly on the funnel Department of acne bacteria to kill Propionibacterium acnes; so horny epithelial shedding, to reduce hair follicle blockage; and moderate heating of the sebaceous glands, sebaceous glands directly inhibit the secretion of sebaceous glands; inhibition of collagen synthesis and reduce the Scar blood flow, so that tissue hypoxia; inhibit melanocyte activity, thereby reducing scarring and pigmentation.

Acne treatment direction

Acne is a common chronic inflammatory disease of the sebaceous glands of the hair follicles that have an adverse effect on the skin’s perception and mental condition.

And to deal with acne we not only pay attention to the treatment of inflammatory lesions and pitting scars, but also pay attention to patients with inflammatory lesions after the treatment of telangiectasia or red rash, persistent erythema, with or without depression Scar treatment.

Only solve the problems caused by acne in order to fundamentally alleviate the symptoms of acne and reduce the impact of acne.

3.Acne marks erythema, facial flushing, rejuvenation Wavelength 1064nm laser can be absorbed by melanin and hemoglobin, moisture absorption less, it can penetrate the dermis. After hemoglobin absorbs laser energy, the blood heats up and the heat energy is transmitted to the blood vessel wall, causing damage to the vascular endothelial cells, resulting in damaged blood vessels and thrombosis. Finally, the absorption and regression of hemoglobin can help cure erythema of the smallpox and eliminate facial flushing and dispelment The role of rosacea.

At the same time 1064Nd.YAG laser can stimulate the dendritic cells scattered in the dermis to generate heat shock protein 70 and procollagen I, so that the deposition of collagen in the dermal papilla layer, to repair scars, reduce pores, eliminate superficial wrinkles, skin firming And so on.

Advantages compared with intense pulsed light:

Strong pulsed light, pulsed dye laser for the treatment of acne erythema, facial flushing and achieved good results, but this method is not perfect.

In contrast with the long pulse cooling system 1064Nd.YAG laser well protect the epidermis, while reducing the patient’s pain in the treatment, most patients without obvious discomfort after treatment, due to the long-pulse melanin 1064 laser absorption Less, almost no pigmentation or hypopigmentation and other common color laser complications after the laser. Compared with DPL, long pulse 1064 laser does not produce purpura, the patient’s work and social will not have an impact.

4.Hair removal and dark ethnic hair removal As we all know, dark hair laser hair removal is more difficult, because the epidermis contains more melanin, hair follicles compete with melanin absorption of laser beam, resulting in epidermal damage blisters, pigment abnormalities, scar formation and other adverse reactions.

However, long-wavelength, long pulse widths and a long pulse width of 1064Nd with a cooling system are used. YAG lasers are effective and safe for epilation of dark-skinned humans.

The safest skin color laser hair removal Currently on the market commonly used laser hair removal apparatus with emerald, mostly semiconductors, after comparing the emerald, semiconductor, long pulse width Nd.YAG laser treatment of 100 cases of skin Ⅳ ~ Ⅵ type women with upper lip and facial hair, found that three kinds of laser Hair removal is quite effective, but the long-pulse Nd.YAG laser is considered the safest hair removal for dark-skinned people due to the adverse reactions of Nd.YAG laser such as erythema, surface scalds, small atrophy, and pigmentation that are significantly smaller than the other two. laser.

5.Onychomycosis Long pulse 1064 Nd.YAG laser has strong penetrability, can penetrate the deck, acting on the nail bed, and the main component of onychomycosis cell wall is melanin, melanin on the long pulse energy has high absorption, energy absorption and treatment Local high temperature reaction, the temperature of the deck up to about 45 ℃, thereby disintegrating the fungal cells within the lesion, and through biological reactions and photochemical reactions attack pathogens, while activating the skin repair mechanism. Thus play a role in the treatment of onychomycosis.

Onychomycosis: Onychomycosis is a disease caused by fungi that invade the deck and subchondral tissues and has a high prevalence in the population, especially in the elderly. The pathogens of onychomycosis include dermatophytes, yeasts and non-dermatophytes, and onychomycosis caused by dermatophytes is also called onychomycosis. Onychomycosis accounted for more than 65% of mycosis, of which the most common Trichophyton rubrum infection.

Long pulse 1064 Nd.YAG laser skin effect is significant, so by the beauty of the unanimous welcome, and the market is excellent long pulse 1064 Nd.YAG laser equipment is also a rare example, such as Yuan Tai’s Mercury long pulse laser, in the The response to capillary lesions and hair removal has been recognized by the market.

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registrardailyreports-blog · 7 years

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Global Pulsed Laser Deposition Systems Market 2017 - PVD Products, BlueWave Semiconductors, SVT Associates (SVTA), DE Technology, AdNaNoTek

Global Pulsed Laser Deposition Systems Market 2017 – PVD Products, BlueWave Semiconductors, SVT Associates (SVTA), DE Technology, AdNaNoTek

The Pulsed Laser Deposition Systems Market 2017 examines the performance of the Pulsed Laser Deposition Systems market, enclosing an in-depth judgment of the Pulsed Laser Deposition Systems market state and the competitive landscape globally. This report analyzes the potential of Pulsed Laser Deposition Systems market in the present as well as the future prospects from various angles in detail.

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#Pulsed Laser Deposition Systems #Pulsed Laser Deposition Systems Market

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igoldenlaser · 3 years

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Portable Handheld Laser Rust Removal Machine

Laser cleaning Machine is a new generation of industrial surface cleaning laser system. It adopts the advanced laser source, laser optical scanners and control system to meet the requirements of metal surface cleaning process.Laser cleaning offers multiple advantages over traditional approaches. It does not involve solvents and there is no abrasive material to be handled and disposed of. Compared with other processes , laser cleaning is controllable and can be applied only to specific areas of a part, can be easily automated to maximize productivity, and provides the guaranteed repeatability demanded by an increasing number of quality standards.

For a long time, the surface treatment capacity of the manufacturing industry lags far behind that of production, which has greatly restricted the process of manufacturing from large to strong. High-end manufacturing and energy saving emission reduction have higher and higher demand for advanced technology. In terms of surface treatment, the technology and process urgently need to be fully upgraded.The high value-added laser technology of hand held laser rust remover is accelerating the replacement of traditional processes, and industry chain companies are stepping up their layout.

Traditional laser cleaning rust removal, such as mechanical friction cleaning, chemical corrosion cleaning, strong impact cleaning, high frequency ultrasonic cleaning, has a long cleaning cycle. It is difficult to realize automation,harmful to the environment, and can not achieve the ideal cleaning effect.Laser cleaning is a more efficient and environmentally friendly process, with no pollution, no consumables, low cost, high efficiency, no contact, no stress, no damage, good controllability, optional precision cleaning, cleaning the dangerous area that difficult to reach . These advantages are challenging traditional processes.

Laser cleaning technology was born in the 1980s, and it didn't really enter industrial production until the early 1990s, and gradually replaced traditional cleaning methods. Due to the relatively limited investment in early technology and manpower, the overall development of the laser cleaning market has been slow. Since 1998, laser cleaning technology has ushered in the first wave of development, mainly led by European and American countries. During this period, laser cleaning applications focused on the surface of metal materials, such as aircraft fuselage paint removal, mold surface degreasing, engine internal carbon deposition, and pre-weld joint surface cleaning. At present, there are three main markets for hand held laser rust remover: one is to replace the existing industrial cleaning (chemical cleaning and ultrasonic), the market size is more than 100 billion, at least 30% can be replaced by laser cleaning, about 30 billion; the second is to replace manual polishing,which can be the standard equipment of every manufacturing workshop, about 10 billion; the third is the newly developed application areas: such as cultural relics cleaning, building cleaning, street cleaning, etc., the market size is about 20 billion.

Igolden laser cleaning machine can meet different application scenarios from pulse laser source and continuous laser source.Specifically, short pulse width can reduce heat input, reduce thermal effects, and improve the oxidation and discoloration of some substrates.pulse laser source can improve the ability to enhance the efficiency of paint removal. It is widely used in the fields of tire mold cleaning, parts oil removal, aero-engine blade thermal barrier coating and oxide film cleaning, metal derusting and varnishing, enamelled copper inductor stripping and so on.

Because the scenes involved in surface treatment are very complicated, and the composition and structure of the attachments on the surface of the object are different, the mechanism of the laser action is also different.laser cleaning is not as easy to promote as laser cutting and laser marking.Enterprises are required to have strong process research and development capabilities. In addition, laser cleaning also has a single nature. How to use a laser to clean different matrix materials is also a very big challenge for laser manufacturers.

The application of large-scale industrialization puts forward higher requirements on the stability and automation level of laser cleaning equipment.Igolden laser cleaning machine comprehensively considers the laser source, motion control, laser head and other links, continuously optimizes the design, and provides customers with more competitive product solutions.

The laser cleaning machine is easy to operate and low maintenance cost. It meets the requirements of environmental protection and has no harm to workers' bodies. And the labor cost is low,the benefits will be quickly obtained.

If you want to know more information about Igolden laser cleaning machine,just contact us.We can test the material according to your requirements.

WHAT CAN A FIBER LASER RUST REMOVER DO?

Fiber laser rust remover is not only a laser rust removal tool, it also used for laser paint removal, laser degreasing, laser removal of oxide layer, laser cleaning screw, laser derusting, laser weld-cleaning.Applied in shipbuilding industry, auto parts, rubber mold, high-end machine tools, tire mold, tracks, environmental protection industry and other industries.

#laser cleaning machine #Fiber laser rust remover #Igolden laser cleaning machine #laser cleaning equipment

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marketreports2022 · 6 months

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Advancing Precision: Exploring the Laser Ablation Systems Market Landscape

Overview of the Laser Ablation Systems Market

Market Dynamics

Market Segmentation

Competitive Landscape

Future Outlook

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nikita-godse · 3 years

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rockbottomlasers · 4 years

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2018 Lumenis PiQo4 Laser Tattoo Removal & Pigmentation with Handpiece (jp/ben45s).

2018 Lumenis PiQo4 Laser Tattoo Removal & Pigmentation with Handpiece; Manufactured on 09/2018; Perfect Cosmetic & Operating Condition; Flash Counts: 1,043,872; 532nm Pulses = 1914, 585nm Pulses = 586, 650nm Pulses = 67, 1064nm Pulses = 81,390; FW: nlsFw v1.27, pdfw v0.07, SW: 1.1.30.0, Reason for Selling: Downsizing; Includes: Articulated Arm, Handpiece with Attachments & Accessories, Key, Interlock, Footswitch, (4) Patient Eyewear, Operator Manual & 90 Day Warranty.(jp/ben45s)

Wavelengths:1064nm,650nm, 585nm & 532nm Pulse Energy:max. 2000mj 15 Spot Sizes:2-15mm Laser:Class 4 Pulse Shape:True, Single Pulse (not a ‘pulse train’) Fast Coverage:Up to 10 Hz Interface:Tablet with Touchscreen PicoFractional Electrical:120 Volt, 10 Amp Friendly User Interface:Microsoft Surface Table

PiQo4 treats a wide range of pigment colors and its versatile energy matrix ensures effective shattering of pigment deposits. It also has the largest spot size on the market, which allows you to deliver faster treatments. PiQo4s ability to treat a wide variety of skin conditions, including tattoo removal, provides your customers an attractive range of aesthetic solutions to improve their lifestyle and sense of well-being.

$71,975.00

The PiQo4 brings unique technology with combination of unsurpassed advantages: Pico+Nano, High Energy, Deep Reach & 4 Wavelengths.

Pico+Nano for doubly effective Treatment

Clinical studies have shown that the optimal method for shattering pigment particles is to treat them with both Nano and Picosecond laser pulses*. First, the Nanosecond pulses are used to deliver short bursts of energy that break down the larger and deeper pigment or ink particles. Then, the area is rescanned with Picosecond pulses that dismantle the smaller and shallower particles. This combination yields far better results than using either one of the technologies on its own.

High Energy very short laser pulses are absorbed into the target areas of the skin causing the conversion of light energy into acoustic waves that shatter the ink/pigment granules in a process that is fast and effective.The high energy levels of PiQo4 allow pigment/tattoo removal with fewer treatments compared with other competing laser systems. PiQo4 provides up to 10 times more energy for both 1064nm and 532nm (650mJ & 325mJ respectively) wavelengths. They can be set as either Nano or Pico, making them suitable for use with both, for dual pulse treatments. Compared to competitive systems

Deep Reach  for Deep Pigment Shattering with PiQo4, your customers will appreciate the faster treatment results with shorter treatment sessions. PiQo4 offers up to 15 spot sizes, ranging from 2mm to 15mm, the largest uniform spot size in todays aesthetics industry and almost four times larger than that of the closest competitor.PiQo4s larger spot sizes allow deeper maintenance of penetration into the dermis and better dispersal of the pigment or embedded ink particles. Studies have demonstrated that treatment with a large spot size at low fluences significantly decreases any occurrence of blistering, discoloration or scarring* on the skins surface, since the energy is being spread over a wider area.

4 Wavelengths  For effective shattering of the most popular pigment/ink colors.

Since each pigment color absorbs a specific wavelength, PiQo4 offers 4 wavelengths in order to treat the broadest range of pigment/tattoo colors, on the widest range of skin types. Its four wavelengths  1064nm, 532nm, 650nm and 585nm  target 9 of the most frequently used tattoo colors ranging from light orange to dark black. With PiQo4 you can erase the rainbow. For more information visit our website details: https://www.rockbottomlasers.com/

#Lumenis Lightsheer Diode Laser #Lightsheer Desire

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rj0987549 · 4 years

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sandlerresearch · 4 years

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Industrial 3D Printing Market by Offering (Printers, Materials, Software, Services), Application (Manufacturing, Prototyping), Process, Technology, Industry (Aerospace & Defense, Automotive), and Geography - Global Forecast to 2025 published on

https://www.sandlerresearch.org/industrial-3d-printing-market-by-offering-printers-materials-software-services-application-manufacturing-prototyping-process-technology-industry-aerospace-defense-automotive-and-geog.html

“Increasing focus on high-volume production using 3D printing to drive the market for industrial 3D printing”

The industrial 3D printing market is projected to grow USD 2.0 billion in 2020 to USD 5.3 billion by 2025, at a CAGR 20.9% between 2020 and 2025. Factors such as huge investments in 3D printing by start-ups companies, increased focus on high-volume production using 3D printing, high demand for 3D printing software to produce industry-grade parts, and ease in development of customized products, significant demand for online 3D printing are driving the growth of the industrial 3D printing market. However, the lack of standardization is restraining market growth.

“Based on offering,services to be the fastest-growing segment between 2020 and 2025.”

Based on offerings, the industrial 3D printing market has been segmented into printers, materials, software, and services. The demand for services is expected to grow rapidly as most manufacturers are prototyping or manufacturing parts on demand. Most of the top players offering 3D printers also offer on-demand printing services, which would further boost the market for industrial 3D printing services.

“Based on technologies, electron beam melting to be the fastest-growing technology between 2020 and 2025.”

Based on technologies, the industrial 3D printing market has been segmented into stereolithography, fused deposition modeling, selective laser sintering, direct metal laser sintering, polyjet printing, inkjet printing, electron beam melting, laser metal deposition, laminated object manufacturing, and digital light processing. Products developed using the electron beam melting technique include small series parts, prototypes for form/fit and functional testing, and support parts such as jigs and fixtures. Electron beam melting 3D printing technology is used in industries such as aerospace, automotive, and healthcare.

“Based on process, direct energy deposition to be the fastest-growing process between 2020 and 2025.”

Based on process, the industrial 3D printing market has been segmented into binder jetting, direct energy deposition, material extrusion, material jetting, powder bed fusion, sheet lamination, and vat photo polymerization. DED, one of the leading metal 3D printing technologies, is already utilized in critical industries such as aerospace & defense, oil & gas, and marine. Aircraft manufacturers are increasingly using technology to produce structural parts for satellites and military aircraft.

“APAC industrial 3D printing market to record the highest growth rate during the forecast period.”

The industrial 3D printing market in the APAC region is expected to grow at the highest CAGR during the forecast period. The major contributors to the market in APAC are Japan and China. China has huge potential in terms of industrial 3D printing applications and is also the fastest-growing market in APAC. Leading players in the industrial 3D printing market such as 3D Systems, EOS GmbH, EnvisionTEC, ExOne, and Stratasys are expanding their distribution networks and establishing centers for industrial 3D printing training, research, and education in Asian countries.

In-depth interviews have been conducted with chief executive officers (CEOs), marketing directors, other innovation and technology directors, and executives from various key organizations operating in the industrial 3D printing market place.

By Company Type: Tier 1–52%, Tier 2–27%, and Tier 3–21%

By Designation: C-level Executives– 48%, Directors – 30%, and Managers–22%

By Region: North America–40%, Europe–28%, APAC–20%,and RoW–12%

Stratasys (Israel/US), 3D Systems (US), Materialise (Belgium), EOS (Germany), GE Additive (US), ExOne (US), voxeljet (Germany), SLM Solutions (Germany), EnvisionTEC (Germany), and HP (US)are some of the key players in the industrial 3D printing market.

The study includes an in-depth competitive analysis of these key players in the industrial 3D printing market, with their company profiles, recent developments, and key market strategies.

Research Coverage

The report defines, describes, and forecasts the industrial 3D printing market based on offering, technology, process, industry, application, and region. It provides detailed information regarding factors such as drivers, restraints, opportunities, and challenges influencing the growth of the industrial 3D printing market. It also analyzes product launches, acquisitions, expansions, and partnerships carried out by the key players to grow in the market.

Key Benefits of Buying the Report

This report will help market leaders/new entrants in this industry with information on the closest approximations of the revenue numbers for the overall industrial 3D printing market and the sub segments. The report will help stakeholders understand the competitive landscape and gain more insights to better position their businesses and plan suitable go-to-market strategies. The report will also help stakeholders to understand the pulse of the market and provide them with information on key market drivers, restraints, challenges, and opportunities.

#Semiconductor &amp; Electronics

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vaccoat · 4 years

Text

Visit VacCoat Ltd. at China International Import Expo (CIIE) 2020

VacCoat Ltd. Will be on hand CIIE 2020 in shanghai. CIIE is a trade fair held annually in China. The 3rd China International Import Exhibition(CIIE) will be held on November 5th to 10th, in Shanghai.

In May 2017, Chinese President Xi Jinping announced at the Belt and Road Forum for International Cooperation that China will hold China International Import Expo(CIIE) starting from 2018. The expo is co-hosted by the Ministry of Commerce of China and the Shanghai Municipal Government. It is a significant move for the Chinese government to hold CIIE to give firm support to trade liberalization and economic globalization and actively open the Chinese market to the world. https://bit.ly/3grLagS

CIIE is an international exhibition of different professions from different countries and is an opportunity for different companies to showcase their products and find a business partner in the world’s second largest economy. Visit CIIE website.

VacCoat at China International Import Expo as one of the leading companies in the field of Vacuum Coating System in the world will be walking the floor at the CIIE to close communication with customers and answer questions to help solve challenges related to vacuum coating deposition process, helping users to improve performance. VacCoat products are used to deposit thin films on the different substrate by physical vapor deposition(PVD) methods. Different models of our products allow vacuum coating process in methods of Sputtering, Thermal evaporation, resistive carbon coating and pulsed laser deposition(PLD).

https://www.diigo.com/user/vaccoat/b/562831953

Depending on the target material, desired properties of deposited thin film and substrate material, each of the mentioned PVD methods has different performance. Easy to operate, reproducible process, small foot print, high precision process and variety, make the VacCoat products efficient and widely used. See the VacCoat website for more information.

https://lnkd.in/di54FTM https://bit.ly/3grLagS

#nano #nanotechnology #nano science #vacuum #vacuum technology #vacuum system #vacuum coatings #deposition #evaporation #sputtering

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technogeekstmr · 4 years

Text

Covid-19 Outbreak: Pulsed Laser Deposition Systems Market 2020 By Product, Application, Manufacturer, Sales And Segmentation 2027

Pulsed Laser Deposition Systems Market: Introduction

Transparency Market Research delivers key insights on the global pulsed laser deposition systems market. In terms of revenue, the global market is estimated to expand at a CAGR of ~8% during the forecast period, owing to numerous factors, regarding which TMR offers thorough insights and forecasts in its report on the global pulsed laser deposition systems market.

A pulsed laser deposition system produces a thin film with a chemical composition similar to that of the target. It basically uses laser systems such as Nd:YAG (i.e. neodymium-doped yttrium aluminum garnet) lasers or exclaimer lasers for vaporizing the target material. Components that constitute a pulsed laser deposition (PLD) system include a PLD chamber, PLD substrate heater, PLD target holder, and PLD optical trains. With growing importance of thin film production, demand for pulsed laser deposition is on the rise. Based on design type, the global pulsed laser deposition systems market has been classified into nano PLD, combinatorial PLD, and others. Among these, combinatorial PLD systems are largely used, owing to the increasing demand for advanced materials to be used across compact or miniature devices that provide a high level of performance. Furthermore, based on application, the global pulsed laser deposition systems market has been classified into solar cells, thin-film preparations, and others. Among these, the thin-film preparations segment is dominant, owing to high adoption of pulsed laser deposition systems for production of thin films across the globe.

Request a sample to get extensive insights into the Pulsed Laser Deposition Systems Market

Pulsed Laser Deposition Systems Market: Dynamics

With the evolution of technology and rising investments in the healthcare sector, the global medical device industry is growing. Furthermore, the demand for advanced medical devices is increasing worldwide, as a result of growing prevalence of lifestyle-related diseases. Medical devices also need to meet the regulations set by the Food & Drug Administration (FDA), which is the federal agency of the U.S. Department of Health and Human Services, in order to confirm the required level of safety and quality. Medical devices is one of the vital applications of pulsed laser deposition systems, as this system applies a thin film onto the medical device, which helps in protecting the device and, eventually, the user. PLD systems also help in meeting the FDA requirements in terms of quality and safety. Moreover, thin films also modify the surface of the medical device in accordance with the application area. In addition to this, they help in providing protection from proliferation of bacteria. Thus, rising demand for medical devices across the globe is projected to have a high positive impact on the global pulsed laser deposition systems market in the near future.

Moreover, the demand for batteries, including Li-ion batteries, is rising owing to their increasing number of applications such as e-bikes and medical equipment. In order to capitalize on the increasing demand for batteries, governments are trying to boost the battery manufacturing sector. For instance, in 2019, the Government of India announced a subsidy plan for battery manufacture. This would further help in driving the battery manufacturing industry in the country. Batteries utilize buffer layers, as they help in avoiding volume expansion between the current collector and the active material of the battery. In addition to this, they also help in enhancing the safety of batteries. Buffer layers is one of the key applications of pulsed laser deposition systems, as this system helps in application of a thin film onto the buffer layer. Government efforts to boost the battery manufacturing industry are expected to have a positive impact on the demand for pulsed laser deposition systems across the globe during the forecast period.

To understand how our report can bring difference to your business strategy, Ask for a brochure

Pulsed Laser Deposition Systems Market: Prominent Regions

North America is the dominant region of the global pulsed laser deposition systems market. Growth of the market in the region can be attributed to the significant manufacturing ability of players in the North America market to produce thin films, which are important for use in semiconductor devices such as modern computers, sensors, and electronic equipment. Identifying the defects in small-sized devices is difficult, due to which National Institute of Standards and Technology (NIST) provides an advanced deposition monitoring and data analysis scheme, which offers a much-improved view of the system and the chemicals that form these ultra-thin films. This measurement and data analytics tool is useful to identify optimal manufacturing conditions. It is used by several semiconductor equipment manufacturers in the U.S. Thus, this scheme, in turn, drives the pulsed laser deposition systems market in North America. Additionally, the market in Europe is focusing on adoption of the PLD technique for depositing a variety of materials ranging from semiconductors, metals, dielectrics, and organics to biomaterials. In Europe, the number of research groups using PLD systems is greater than 30. The rising demand for PLD-based devices offered by these groups is expected to boost the pulsed laser deposition systems market in Europe during the forecast period. The market in Asia Pacific is estimated to witness significant growth during the forecast period. The pulsed laser deposition systems market in Middle East & Africa and South America is expected to witness moderate growth in the near future.

Pulsed Laser Deposition Systems Market: Key Players

Key players operating in the global pulsed laser deposition systems market are AdNaNoTek, BlueWave Semiconductors, Coherent, Inc., DE Technology, LJ UHV Technology, BM Design, Neocera, Plasmionic Technologies, PVD Products, Inc., Scienta Omicron, Solmates, SURFACE systems + technology GmbH & Co. KG, SVT Associates (SVTA), and Twente Solid State Technology BV.

Stuck in a neck-to-neck competition with other brands? Request a custom report on Pulsed Laser Deposition Systems Market

Global Pulsed Laser Deposition Systems Market: Segmentation

Pulsed Laser Deposition Systems Market, by Design Type

Nano PLD

Combinatorial PLD

Others

Pulsed Laser Deposition Systems Market, by Component

PLD Chambers

PLD Substrate Heaters

PLD Targets

PLD Optical Trains

Others

Pulsed Laser Deposition Systems Market, by Application

Solar Cells

Thin-film Preparations (Buffer Layers, Wear Parts, Optical Systems, Sensors, and Medical)

Others

Pulsed Laser Deposition Systems Market, by Region

North America

Europe

Asia Pacific

Middle East & Africa

South America

About Us

Transparency Market Research is a global market intelligence company, providing global business information reports and services. Our exclusive blend of quantitative forecasting and trends analysis provides forward-looking insight for thousands of decision makers. Our experienced team of analysts, researchers, and consultants use proprietary data sources and various tools and techniques to gather and analyze information.

Our data repository is continuously updated and revised by a team of research experts, so that it always reflects latest trends and information. With a broad research and analysis capability, Transparency Market Research employs rigorous primary and secondary research techniques in developing distinctive data sets and research material for business reports.

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optromix · 4 years

Text

Distributed temperature sensors promote warning systems

If you are interested in DTS systems and want to learn more, please contact us at [email protected]

Temperature is a key safety indicator in any industry. The technology of distributed temperature sensors using optical fiber allows measuring the temperature at any point in the fiber, with an interval of 1 meter, resulting in the detailed temperature dependence of all required areas. The data obtained by this technique makes it possible to develop intelligent warning systems based on it, therefore, replacing outdated point-based monitoring systems.

The optical fiber itself acts like a fiber optic sensor, and the distributed nature of the DTS technology enables us to determine the temperature change at an arbitrary point, spreading many kilometers from it. Moreover, the measurement quality is not affected by electromagnetic radiation, thus, the distributed temperature technology is free from false alarms.

To be more precise, distributed temperature sensors (DTS) allow measuring the characteristics of an object along a fiber optic cable, while the fiber cable is a linear sensor, which is a continuously distributed sensing element throughout its entire length.

The operating principle is based on the reflectivity of stimulated Raman scattering of light (Raman effect). A semiconductor laser is also used to determine the location of temperature changes in a fiber optic cable. The fact is that the structure of the optical fiber changes when the temperature changes.

When laser beam light from the laser system enters the area of temperature change, it interacts with the changed structure of the optical fiber and in addition to direct light scattering, reflected light appears.

The main advantages of fiber optic sensors in comparison with classical analogs are the following:

• Compact size;

• Very fast response to parameter changes in the environment;

• Low weight;

• Multiple parameters can be registered simultaneously by a single distributed sensor;

• Reliability;

• Very wide operating temperature range of DTS;

• Small price per unit length of the sensing system;

• High sensitivity;

• Long operating time;

• The high spatial resolution of temperature sensors;

• Resistance to chemicals and aggressive environments;

• DTS is not affected by electromagnetic disturbances;

• The sensitive part of the fiber sensor does not require connection to power lines.

The processing unit measures the propagation speed and power of both direct and reflected light and determines where the temperature changes. For instance, at a wavelength of 1550 nm, a pulsed generation mode is used with a laser power limit of 10 mW.

There are several types of optical fibers, each of which meets certain requirements for its properties, depending on the application due to the fact that the properties of the optical fiber can be varied over a wide range.

Physical effects on the optical fiber, such as pressure, deformation, temperature change, affect the properties of the fiber at the point of exposure and it is possible to measure the environmental parameters by measuring the change in the properties of the fiber at a given point.

In general, a fiber optic sensor consists of two concentric layers: fiber core and optical coating. The fiber optic light guide part can be protected by a layer of acrylate, plastic, reinforced sheath, etc., depending on the application of this fiber cable.

Thus, distributed fiber optic sensors are perfect for industries related to combustible and explosive materials, such as coal, oil and gas production, etc. for use in fire alarm systems of various structures.

Application of distributed temperature sensors includes:

• fire alarm systems in the road, rail or service tunnels;

• thermal monitoring of power cables and overhead transmission lines to optimize production processes;

• improving the efficiency of oil and gas wells;

• ensuring the safe working condition of industrial induction melting furnaces;

• monitoring the tightness of containers with liquefied natural gas on ships in unloading terminals;

• detection of leaks in dams;

• temperature control in chemical processes;

• leak detection in pipelines.

In addition, DTS systems combined with other tools open completely new areas of application. For example, it is possible to design a specialized device - a fire detector based on a distributed fiber optic temperature sensor.

Detecting a fire in an industrial environment is not an easy task because of the large number of disturbing factors, many of which can be considered by detectors as carriers of fire signs. In addition, dust deposited on the DTS' sensitive elements makes it difficult to operate and it can disable them.

It is also necessary to take into account the possible smoldering of the deposited dust, which can also lead to false alarms. The presence of fumes and aerosols makes it impossible to operate smoke optical-electronic fire detectors. The presence of carbon monoxide will trigger gas fire detectors.

Industrial facilities and production are characterized by large volumes of premises, high ceilings, the presence of long tunnels, collectors, mines, inaccessible areas and premises with a complex configuration and geometry. And in these conditions, it is certainly possible to protect using traditional fire alarm systems, but this involves the use of a large number of detectors, and therefore they have high costs, including installation and maintenance of alarm systems and automation.

It is difficult to select detectors for explosive zones, especially for use in underground operations and mines. Aggressive media are often present in chemical industries. There are also objects of sea and river transport, characterized by the aggressive salt fog.

The use of non-electric sensing devices, the use of fiber optic cable allows the DTS to be applied in enterprises of the oil and gas complex, mines, underground operations, chemical industries (including those with aggressive environments), and metallurgy and energy enterprises.

As for oil companies, the active development of high-viscosity oil fields, which imposes strict requirements on the production equipment, and the severe depletion of most oil and gas fields require mining organizations to conduct prospecting and exploration operations, change production technologies and control the technical condition of wells.

The main task for mining companies to increase the well's production capacity in real-time is to track information about the processes occurring in wells and fields. Solutions based on standard temperature sensors suggest well logging using point measuring instruments, which leads to the inaccuracy of the data obtained.

The disadvantages of such sensing devices include the inability to fix the distribution of one of the most important parameters of the well – the temperature profile in real-time, as well as the need for power supply, the impact on the measurement results of external electromagnetic fields, labor and time costs required for the departure of the team and performing various operations, including the immersion of the fiber sensor element and its movement along the well, data processing, etc.

The fiber optic sensing system consists of distributed temperature sensors designed to measure temperature along the borehole, and point-to-point fiber pressure sensor. Optical fibers of a distributed temperature sensing system and pressure sensors can be structurally installed in a single fiber cable.

The fiber optic cable is resistant to mechanical damage. Additional fiber optic cable protection is not required during descent and lifting operations, but the protection of the fiber cable from mechanical damage during descent and lifting operations can be provided by the use of protective coatings.

If you want to obtain a highly efficient distributed temperature sensing system, you should choose the Optromix company. Optromix is a manufacturer of innovative fiber optic products for the global market. The company provides the most technologically advanced fiber optic solutions for monitoring worldwide. Optromix is a fast-growing vendor of fiber Bragg grating (FBG) products line such as fiber Bragg grating sensors, FBG interrogators and multiplexers, distributed acoustic sensing (DAS) systems, distributed temperature sensing (DTS) systems.

Distributed temperature system provides continuous underground power lines monitoring of temperatures, detecting hot spots, delivering operational status, condition assessment, and power circuit rating data. This helps operators to optimize the transmission and distribution networks, and reduce the cost of operation and capital.

Usually, the DTS systems can detect the temperature to a spatial resolution of 1 m with precision to within ±1°C at a resolution of 0.01°C. Measurement distances of greater than 30 km can be monitored and some specialized systems can provide even tighter spatial resolutions. The advantages of working with Optromix:

Our DTS system has the superior quality, however, its price is one of the lowest in the market;

Optromix is ready to develop DTS systems based on customer’s specifications.

#dts #dts system #temperature sensor #fiber optic sensing

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rahulharsh123-blog · 5 years

Link

The Global Ultrafast Laser Market is expected to grow with a significant rate during the forecast period 2019-2025, owing to rising demand in the automobile industry for quality, product miniaturization, high precision, smaller lots, and applicability to diverse materials, and cost-effectiveness. The uniqueness of ultrafast Laser to deliver high peak power without thermal damage, which is ideally suited for biological and biomedical applications will boost the Ultrafast Laser market in the upcoming year.

Moreover, the major factor driving the market growth is the growing use of Ultrafast Laser in the automobile industry for performs micro-structuring in the automotive industry. Furthermore, Upsurge in the application of ultrafast lasers for the industrial process such as drilling, cutting, and surface processing due to their high efficiency and the precision will accelerate the growth of Ultrafast Laser market.

Additionally, the use of the ultrafast laser for fabricating three-dimensional structures in transparent solids and for removing the defects in ultrafast laser will contribute to Ultrafast Laser market growth during the forecast period. Also, advancements in ultrafast laser technology as nonlinear imaging in bio-medical for understanding the dynamical processes found in many biological structures are major drivers for the growth of global Ultrafast Laser market in the forecast period.

Fiber laser diode type of Ultrafast Laser market is projected to be the leading segment of the overall market during the forecast period

On the basis of diode type, the Ultrafast Laser market has been segmented into Titanium-sapphire lasers, diode-pumped lasers, fiber lasers, and mode-locked diode lasers. Fiber lasers dominate the global Ultrafast Laser owing to their growing need in micromachining and medical diagnostics due to its high stability, superior beam quality, compactness, and power scalability. Diode-pumped lasers will drive by its application in the manufacturing industry for high precision materials processing.

Request for PDF Sample of this Market Research Report@ https://www.blueweaveconsulting.com/global-ultrafast-laser-market-bwc19163#ReportSample

Biomedical is projected to lead the industry for utilizing applications of the Ultrafast Laser during the forecast period

On the basis of Application, the global Ultrafast Laser market has been segmented into biomedical, materials processing, spectroscopy, and imaging, science, and research, & others. By Application, Biomedical will lead the market owing to the growing adoption of Ultrafast Laser for eye surgery and vision correction, dentistry, dermatology, and various kinds of cosmetic treatment such as tattoo removal and hair removal. Materials processing will influence by its uses for cutting, drilling, welding, cladding, soldering, hardening, ablating, surface treatment, micromachining, pulsed laser deposition, and lithography.

Europe accounts for the lion’s share of the global Ultrafast Laser market during the anticipated period.

On the basis of region, the Ultrafast Laser market has been segmented into North America, Europe, Asia Pacific, Middle East & Africa, and Latin America. Europe dominates the world Ultrafast Laser market over the forecast period owing to the presence of major companies coupled with the huge demand of Ultrafast Laser in the medical and manufacturing industry. The Asia Pacific is projected to be the fastest growing market throughout the forecast period due to the rapid expansion of manufacturing industries which will demand of ultrafast lasers.

Global Ultrafast Laser Market Competitive Landscape

Companies such as Amplitude Systemes, Attodyne Inc., Coherent Inc., Dpss Laser Inc., Fianium Ltd., Ekspla, Laser Quantum Ltd., Clark-MXR, Inc., Epilog Laser, IPG Photonics, JENOPTIK Laser GmbH, Jds Uniphase Corporation, NKT Photonics, Resonetics and Rofin-Sinar Laser GmbH, are the key players in Ultrafast Laser market across the globe.

#Ultrafast Laser Market #Forecast #Trend #Outlook

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