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超高速レーザーの世界市場 - タイプ、用途、地域別 - 成長、トレンド、および予測(2018年〜2023年)

Global Ultrafast Lasers Market - Growth, Trend and Forecast (2018 - 2023)

発行 Mordor Intelligence LLP 商品コード 393535
出版日 ページ情報 英文 113 Pages
納期: 2-3営業日
本日の銀行送金レート: 1USD=113.01円で換算しております。
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超高速レーザーの世界市場 - タイプ、用途、地域別 - 成長、トレンド、および予測(2018年〜2023年) Global Ultrafast Lasers Market - Growth, Trend and Forecast (2018 - 2023)
出版日: 2018年07月01日 ページ情報: 英文 113 Pages




第1章 イントロダクション

  • 研究の主な成果物
  • 調査の前提条件

第2章 調査方法

第3章 エグゼクティブサマリー

第4章 市場の分析

  • 市場概況
  • 市場動向
  • 成長要因
  • 阻害要因
  • 業界の魅力 - ファイブフォース分析
    • サプライヤーの交渉力
    • 消費者の交渉力
    • 新規参入の脅威
    • 代替品の脅威
    • 業界内での競争

第5章 市場セグメンテーション

  • タイプ別
    • ダイオード励起レーザー
    • モードロックダイオードレーザー
    • チタンサファイアレーザー
    • ファイバーレーザー
  • エンドユーザー別
    • 金属加工
    • 自動車
    • 医療・ライフサイエンス
    • 教育
    • 航空宇宙・航空
    • その他
  • パルス持続時間
    • ピコセカンド
    • フェムトセカンド
  • 地域別
    • 北米
    • 欧州
    • アジア太平洋地域
    • 中南米
    • 中東・アフリカ

第6章 競合他社の情報- 企業プロファイル

  • Coherent Inc.
  • Amplitude Laser Group
  • Epilog Corporation
  • IPG Photonics Corporation
  • Laser Quantum Ltd.
  • Newport Corp.
  • Wuhan Huaray Precision Laser Co., Ltd.
  • DPSS Laser Inc.
  • Lumentum Operations LLC.
  • IMRA America Inc.
  • Jenoptik Laser GmbH
  • NKT Photonics A/S
  • TRUMPF Group

第7章 投資分析

第8章 市場の将来

Product Code: 52465

The Global Ultrafast Lasers Market was valued at USD 2.69 billion in 2017, and is expected to reach a value of USD 10.27 billion by 2023, at a CAGR of 24.96%, during the forecast period (2018 - 2023). The report scope includes insights on the solutions offered by major players including providers of hardware, professional services, and associated solutions. The regions included in the study are North America, Europe, Asia-Pacific, Latin America, and Middle East & Africa. The study emphasizes on various user-based applications, such as material processing, science & research, biomedical field, spectroscopy & imaging, consumer electronics, automotive, etc. The study also offers insights on the market segmented on laser types as diode-pumped lasers, mode-locked diode lasers, titanium-sapphire lasers, fiber lasers, and others.

Automotive Industry is an Important Innovation Initiator in Ultrafast Lasers Market

The automotive industry has been a driving force behind the innovations in high-powered laser applications for past two decades. Ultrafast lasers have potential to satisfy many requirements in the automotive industry, including quality, product miniaturization, high precision, smaller lots, and applicability to diverse materials, and cost-effectiveness. Automakers all around the world are under immense pressure to meet the targets, and strict rules imposed by the government, to increase the mileage and reduce the CO2emissions. Automobile manufacturers are turning towards technological innovations in lasers as one of the solutions, to squeeze more mileage out of existing fossil fuel engine designs.

The Ultrafast lasers are increasingly used to perform micro-structuring in the automotive industry. One such technique is making an array of small pits on the surface of a part. These small pits hold oil because of the surface tension and prevent direct metal-to-metal contact, thus significantly reducing the friction between the moving parts. These ultrafast lasers are most useful for micro-structuring on parts that have an intricate shape, as it can be used to rapidly process even the most complex surface geometries. One example of this kind of micro-structuring is turbocharger turbine wheel shafts. These parts are subjected to large forces and rotate at high speeds. In order to reduce the friction, increase operating efficiency, and improve product life, ultrafast lasers can be used to produce small pits of size around 40-100 μm in length and 10-20 μm in width on the shafts.

It has been found that, better control of the droplet size and spray pattern from GDIs (Gas Direct Injectors), which is controlled by spray-hole shape and interior wall roughness, can have a dramatic effect on the overall efficiency of the engine, increasing the performance by, as much as, 30%. It is infuriatingly difficult to achieve this level of precision needed for nozzles that can inject fuel flow to required specification with traditional laser drilling or electrical discharge machining. However, ultrafast lasers can fill the role and are turning out to be a huge opportunity for manufacturers. The average roughness (Ra) for the spray-hole sidewalls achieved by traditional methods cannot be better than 0.5 μm and 3% hole-to-hole diameter variation, whereas ultrafast laser drilling can achieve up to 0.1 am Ra and <1% hole-to-hole variation. This advantage is making the leading suppliers in the automotive industry to adopt femtosecond laser solutions for the production of GDI nozzles driving the market for ultrafast lasers.

Europe is the Manufacturing Hub for Laser Material Processing Equipment

Europe plays a major role in both, the manufacture of laser materials processing equipment, and its use. A number of major global companies either are based out of Europe or have major facilities in Europe. The key future technologies are expected to be high beam quality diode lasers, high power single mode fiber lasers, and kilowatt class ultrafast lasers. Europe currently has a strong position in the global lasers industry, which is based on its historic leading position in the industry, and its continuing strong industrial and research base. Most of the world's major laser companies have their headquarters in Europe. There are, however, concerns that Europe's high-cost base may affect its position in far eastern markets that will lead, over time, to a weaker position in Europe, particularly if the far eastern companies actively seek to expand their own production of lasers for materials processing.

It is expected that Europe will retain its current strong market position during the forecast period, provided it can successfully reach the far eastern markets. This is expected to provide additional employment; however, the levels could not be quantified. Economic benefits will be offered to user sectors through lower materials, operational, and maintenance costs. There are various new technologies under development to extend the potential applications of ultrafast lasers, and Europe is in a strong position to exploit it, given its current position in the market.

Key Developments in the Market

January 2018 - Femtosecond Lasers Extend Glass cleaving to Mixed Materials. Engineers in Coherent's applications laboratory performed tests of this laser for glass filamentation. Monaco can cut glass up to several millimeters in thickness by utilizing the "burst mode," where the laser output is allowed to be grouped into a series of fast bursts. The minute spacing of 20 nanoseconds between individual pulses that creates a material interaction proportional to the entire burst energy, as opposed to the power of a single pulse. To achieve a continuous cut, these lasers generated filaments are produced very close to each other by a relative movement of the workpiece concerning the laser beam. The typical filament diameter is in the range of 0.5 µm to 1 μm, enabling very high precision cutting.

August 2017 - In a collaborative effort involving Coherent scientists & engineers that developed & optimized a custom Tm3+ laser, and the research team of professor Thomas Milner in the Biomedical Engineering Department at the University of Texas, Austin, surgical application of thulium based lasers approached viability.


Reasons to Purchase this Report

Current and future global ultrafast lasers market outlook

Performance of various segments in the global market

Analyzing different perspectives of the market with the help of Porter's five forces analysis

Segments and sub-segments expected to dominate the global market

Regions expected to witness the fastest growth during the forecast period

Latest developments, market shares, and strategies employed by the major market players

3-month analyst support, along with the Market Estimate sheet (in excel)

Customization of the Report

This report can be customized to meet your requirements. Please connect with our representative, who will ensure you get a report that suits your needs

Table of Contents

1. Introduction

  • 1.1 Key Deliverables of the Study
  • 1.2 Study Assumptions

2.Research Methodology

3. Executive Summary

4. Market Insights

  • 4.1 Market Overview
  • 4.2 Market Dynamics
  • 4.3 Drivers
    • 4.3.1 High Efficacy and Precision of Devices
    • 4.3.2 Declining Prices and Increase in Applications
  • 4.4 Restraints
    • 4.2.1 Clashes in Technological Implementation
  • 4.5 Industry Attractiveness - Porter's Five Force Analysis
    • 4.5.1 Bargaining Power of Suppliers
    • 4.5.2 Bargaining Power of Consumers
    • 4.5.3 Threat of New Entrants
    • 4.5.4 Threat of Substitutes
    • 4.5.5 Intensity of Competitive Rivalry

5. Market Segmentation

  • 5.1 By Laser Type
    • 5.1.1 Diode-pumped lasers
    • 5.1.2 Mode-locked diode lasers
    • 5.1.3 Titanium-sapphire lasers
    • 5.1.4 Fiber Lasers
  • 5.2 By End-User Industry Verticals
    • 5.2.1 Metal Processing
    • 5.2.2 Automotive
    • 5.2.3 Healthcare and Life Sciences
    • 5.2.4 Education
    • 5.2.5 Aerospace and Aviation
    • 5.2.6 Others
  • 5.3 By Pulse Duration
    • 5.3.1 Picosecond
    • 5.3.2 Femtosecond
  • 5.4 By Region
    • 5.4.1 North America
    • 5.4.2 Europe
    • 5.4.3 Asia-Pacific
    • 5.4.4 Latin America
    • 5.4.5 Middle East & Africa

6. Competitive Intelligence - Company Profiles

  • 6.1 Coherent Inc.
  • 6.2 Amplitude Laser Group
  • 6.3 EKSPLA
  • 6.4 Epilog Corporation
  • 6.5 IPG Photonics Corporation
  • 6.6 Laser Quantum Ltd.
  • 6.7 Newport Corp.
  • 6.8 Wuhan Huaray Precision Laser Co., Ltd.
  • 6.9 DPSS Laser Inc.
  • 6.10 Lumentum Operations LLC.
  • 6.11 IMRA America Inc.
  • 6.12 Jenoptik Laser GmbH
  • 6.13 NKT Photonics A/S
  • 6.14 TRUMPF Group

List not Exhaustive

7. Investment Analysis

8. Future of the Market

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