The report on the Global Silicon Photonics Market gives an estimation of the development of the market based on historical studies and also provides forecasts on the basis of comprehensive research. The report gives a complete market analysis for the forecasted period from 2020 to 2026. The market is portioned into various segments with an in-depth outlook of the competitive outlook and a listing of the profiled key players. The market size in terms of revenue (USD MN) is calculated and provided for the study period along with the dynamics of the market such as the drivers and the restraints.
Study period considered for research of global silicon photonics market:
- Base Year: 2019
- Estimated Year: 2020
- Forecast Till: 2026
A glimpse of the major drivers and restraints affecting the silicon photonics market is mentioned below.
Drivers
- Growing demand for high speed data transfer
- Rising use in data communication application
Restraints
- High risk of thermal effect
The report offers a value chain analysis that gives a comprehensive outlook of the silicon photonics market. The attractiveness analysis of this market has also been included so as to evaluate the segments that are anticipated to be profitable during the forecast period.
The silicon photonics market has been segmented based on component such as passive components and active components. A passive component has been segmented into optical waveguides (planar waveguides, strip waveguides, rib waveguides and fiber waveguides), splitters and isolators. Further, active components has been segmented into optical modulators (absorptive modulators (franz-keldysh effect, quantum-confined stark effect, plasma dispersion effect), refractive modulators (electro-optic effect, magneto-optic effect, thermo-optic effect and polarization change in liquid crystals), photo detectors, wavelength-division multiplexing (WDM) filters, switches, and lasers (single frequency laser and tunable laser). The study incorporates periodic market estimates and forecasts. Each component has been analyzed based on the market size at regional and country levels.
The silicon photonics market has been segmented based on product such as transceivers, active optical cables, optical multiplexers, variable optical attenuators, optical engines, RF circuits and other. The study incorporates periodic market estimates and forecasts. Each product has been analyzed based on the market size at regional and country levels.
The silicon photonics market has been segmented based on applications such as consumer electronics, telecommunication, data communication, medical and life science (spectroscopy), defense and commercial (holography and digital signage and image processing). The report provides forecast and estimates for each application in terms of market size during the study period. Each application has been further analyzed based on regional and country levels.
Geographically, the silicon photonics market has been segmented into regions such as North America, Europe, Asia Pacific and Rest of the World. The study details country-level aspects based on each segment and gives estimates in terms of market size.
The report also covers the complete competitive landscape of the global Silicon Photonics market with company profiles of key players such as:
- Aurrion Inc.
- Cisco Systems, Inc.
- Das Photonics
- Finisar Corporation
- Hamamatsu Photonics K.K.
- Infinera Corporation
- Intel Corporation
- International Business Machines Corporation
- Luxtera Inc.
- Mellanox Technologies, Ltd.
- Stmicroelectronics N.V.
A detailed description of each has been included, with information in terms of headquarters, inception, stock listing, upcoming capacities, key mergers & acquisitions, financial overview, and recent developments. This analysis gives a thorough idea about the competitive positioning of market players. The report also gives information of silicon photonics market’s mergers/acquisitions, partnerships, collaborations, new product launches, new product developments and other industry developments.
SEGMENTATIONS IN REPORT:
Silicon Photonics Market Analysis by Component:
- Passive Components
- Optical Waveguides
- Planar Waveguides
- Strip Waveguides
- Rib Waveguides
- Fiber Waveguides
- Splitters
- Isolators
- Active Components
- Optical Modulators
- Absorptive Modulators
- Franz-Keldysh Effect
- Quantum-Confined Stark Effect
- Plasma Dispersion Effect
- Refractive Modulators
- Electro-Optic Effect
- Magneto-Optic Effect
- Thermo-Optic Effect
- Polarization Change in Liquid Crystals
- Photo Detectors
- Wavelength-Division Multiplexing (WDM) Filters
- Switches
- Lasers
- Single Frequency Laser
- Tunable Laser
Silicon Photonics Market Analysis by Product:
- Transceivers
- Active Optical Cables
- Optical Multiplexers
- Variable Optical Attenuators
- Optical Engines
- RF Circuits
- Other
Silicon Photonics Market Analysis by Applications:
- Consumer Electronics
- Telecommunication
- Data Communication
- Medical and Life Science
- Defense
- Commercial
- Holography and Digital Signage
- Image Processing
Silicon Photonics Market Analysis by Geography:
- North America
- Europe
- Asia Pacific
- Rest of the World
The Global Silicon Photonics Market has been exhibited in detail in the following chapters -
Chapter 1 Silicon Photonics Market Preface
Chapter 2 Executive Summary
Chapter 3 Silicon Photonics Industry Analysis
Chapter 4 Silicon Photonics Market Value Chain Analysis
Chapter 5 Silicon Photonics Market Analysis By Component
Chapter 6 Silicon Photonics Market Analysis By Product
Chapter 7 Silicon Photonics Market Analysis By Applications
Chapter 8 Silicon Photonics Market Analysis By Geography
Chapter 9 Competitive Landscape Of Silicon Photonics Companies
Chapter 10 Company Profiles Of Silicon Photonics Industry
METHODOLOGY:
A combination of primary and secondary research has been used to determine the market estimates and forecasts. Sources used for secondary research include (but not limited to) Paid Data Sources, Company Websites, Technical Journals, Annual Reports, SEC Filings and various other industry publications. Specific details on methodology used for this report can be provided on demand.