Global Silicon Photonics Market Forecast 2019-2028

Global Silicon Photonics Market Forecast 2019-2028

KEY FINDINGS
The global silicon photonics market is estimated to grow at a CAGR of 18.23% during the forecast period, 2019-2028. The factors boosting global market growth are rising need for energy-efficient technology, the requirement for high-speed data transfer, surging investments in the market, increasing internet connectivity, and a rise in smartphone use.

MARKET INSIGHTS
Silicon photonics is a progressing technology that can carry a large amount of data in less time than electric conductors. Silicon photonics helps in saving a huge amount of energy, and also leads to a decrease in financial cost. Since silicon photonics use light as a medium of transferring data, it transfers data much faster than electrical signaling. This helps in saving time, money, and human resources.
Silicon photonics technology generates excessive heat, which can destroy the lives of flora and fauna, and is not considered eco-friendly. The market is highly intense and extremely competitive, due to the initiatives taken by the companies to offer developed and innovative products. Silicon photonics is one such technology that has surpassed other technologies in providing faster means of data transfers to the telecom sector.

REGIONAL INSIGHTS
The geographical analysis of the global silicon photonics market depends on the market regions of North America, Europe, Asia Pacific, and the Rest of the World. As of 2019, the region of North America captured the largest revenue share, owing to its developed industrial infrastructure investments for dedicated R&D facilities, and the presence of several prominent players.

COMPETITIVE INSIGHTS
The major players are involved in frequent acquisitions and coalitions to increase their portfolio, and to gain a competitive edge in expanding their global presence. Some of the well-known multinational players include Intel Corporation, ADVA Optical Networking, Hewlett Packard Enterprise Company, Hamamatsu Photonics, Okmetic OY, among many others.
Our report offerings include:
• Explore key findings of the overall market
• Strategic breakdown of market dynamics (Drivers, Restraints, Opportunities, Challenges)
• Market forecasts for a minimum of 9 years, along with 3 years of historical data for all segments, sub-segments, and regions
• Market Segmentation cater to a thorough assessment of key segments with their market estimations
• Geographical Analysis: Assessments of the mentioned regions and country-level segments with their market share
• Key analytics: Porter's Five Forces Analysis, Vendor Landscape, Opportunity Matrix, Key Buying Criteria, etc.
• Competitive landscape is the theoretical explanation of the key companies based on factors, market share, etc.
• Company profiling: A detailed company overview, product/services offered, SCOT analysis, and recent strategic developments


1. Research Scope & Methodology
1.1. Study Objectives
1.2. Scope Of Study
1.3. Methodology
1.4. Assumptions & Limitations
2. Executive Summary
2.1. Market Size & Estimates
2.2. Market Overview
3. Market Dynamics
3.1. Market Definition
3.2. Key Drivers
3.2.1. Growing Need For Energy Efficient Technology
3.2.2. Need For High-speed Data Transfer
3.2.3. Growth Of Investments In The Market
3.2.4. Growth In Internet Connectivity
3.2.5. Increase In Smartphone Use
3.3. Key Restraints
3.3.1. Thermal Effects Of The Technology
3.3.2. Intricate Network System
3.3.3. Issues Related To Standardization
4. Key Analytics
4.1. Key Investment Insights
4.2. Porter’s Five Force Analysis
4.2.1. Buyer Power
4.2.2. Supplier Power
4.2.3. Substitution
4.2.4. New Entrants
4.2.5. Industry Rivalry
4.3. Opportunity Matrix
4.4. Vendor Landscape
5. Market By Product
5.1. Optical Transceiver
5.1.1. Single Channel
5.1.2. Parallel Channel
5.2. Optical Switches
5.3. Integrated Circuit
5.4. Sensors
5.5. Photovoltaic Cells/Solar Cells
6. Market By Components
6.1. Waveguides
6.1.1. Rib Waveguide
6.1.2. Strip Waveguides
6.1.3. Planar Waveguides
6.1.4. Fiber Waveguides
6.2. Optical Modulators
6.2.1. Absorptive Modulators
6.2.1.1. Franz-keldysh
6.2.1.2. Quantum-confined Stark
6.2.1.3. Plasma Dispersion
6.2.2. Refractive Modulators
6.2.2.1. Thermo-optic Effect
6.2.2.2. Electro-optic Effect
6.2.2.3. Magneto-optic Effect
6.2.2.4. Polarisation Changes To Liquid Crystals
6.3. Interconnects
6.3.1. Interchip Interconnects
6.3.2. Backplane Interconnects
6.3.3. Intrachip Interconnects
6.4. Wavelength Division Multiplexer Filters
6.5. Led
6.6. Photodetector
7. Market By Application
7.1. Telecommunication
7.1.1. Optic Fiber Communications
7.1.2. Optical Down Converter To Microwave
7.2. Information Processing
7.3. Others
7.3.1. Displays
7.3.2. Consumer Electronics
7.3.3. Metrology
7.3.3.1. Time And Frequency Measurement
7.3.3.2. Rangefinding
7.3.4. Sensing
7.3.5. Spectroscopy
7.3.6. Holography
7.3.7. Medicine
7.3.8. Military
7.3.9. Others
8. Geographical Analysis
8.1. North America
8.1.1. United States
8.1.2. Canada
8.2. Europe
8.2.1. United Kingdom
8.2.2. Germany
8.2.3. France
8.2.4. Italy
8.2.5. Russia
8.2.6. Belgium
8.2.7. Poland
8.2.8. Rest Of Europe
8.3. Asia Pacific
8.3.1. China
8.3.2. Japan
8.3.3. India
8.3.4. South Korea
8.3.5. Indonesia
8.3.6. Thailand
8.3.7. Vietnam
8.3.8. Australia & New Zealand
8.3.9. Rest Of Asia Pacific
8.4. Rest Of World
8.4.1. Latin America
8.4.2. Middle East & Africa
9. Company Profiles
9.1. Adva Optical Networking
9.2. Chiral Photonics Inc
9.3. Enablence Technologies Inc
9.4. Ii-vi
9.5. Hamamatsu Photonics Kk
9.6. Hewlett Packard Enterprise
9.7. Infinera Corporation
9.8. Intel Corporation
9.9. Mellanox Technologies Ltd
9.10. Molex Llc
9.11. Neophotonics Corporation
9.12. Okmetic Oy
9.13. Stmicroelectronics Nv
9.14. Luxtera (Acquired By Cisco)
9.15. Acacia Communication Inc

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