Overview
The Global Silicon
Photonics Market is expected to reach USD
2,518.59 Million by 2024 at a CAGR of 22.93% during
the forecast period. Market Research Future (MRFR), in its report, envelops
segmentations and drivers to provide a better glimpse of the market in the
coming years.
Silicon photonics uses various components in conjunction to
increase the processing speed and power of computers. The data is transferred
using light pulses (laser) and is multiplex at the transmitter end using a
multiplexer. The data traverses through a fiber optic channel and is
demultiplexed at the receiver end. A photodetector then converts the light
pulses into data. Silicon photonics has observed major applications in optical
communication, optical routers, and signal processors, long-range
telecommunications, and light-field displays. Silicon photonics is thus widely
used in data centers and 5G communications. However, it has started developing
its usage in commercial security, consumer electronics, and military sectors.
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Competitive Analysis
The Key Players of the Global Silicon Photonics Market
are Infinera Corporation (US), Cisco Systems Inc. (US), Intel
Corporation (US), IBM Corporation(US), Mellanox Technologies Ltd (Israel),
Hamamatsu Photonics KK (Japan), STMicroelectronics NV (Switzerland), Finisar
Corporation (US), FLIR Systems (US), IPG Photonics Corporation (US), NKT
Photonics (Denmark), SICOYA (Germany), AIO Core Co. Ltd (Japan) and DAS
Photonics (Spain).
- In
June 2019, NKT photonics partnered with Oxide
Corporation to develop and manufacture deep ultraviolet and violet
ultrafast lasers. This partnership is focused on growing micromachining in
the semiconductor and healthcare industries.
- In
November 2018, IPG Photonics launched a new generation of
high-power fiber lasers for industrial applications. These new generation
lasers consist of three innovations: adjustable mode beam capability,
integrated weld monitoring technology, and QCW 2x Peak Power mode on CW
lasers.
Segmental Analysis
The Global Silicon Photonics Market has been segmented based
on Product, Component, End User, and Region.
Based on the product, the market has been classified as
transceivers, active optical cable, optical multiplexers, variable optical
attenuators, optical engines, and others. The transceivers segment accounted
for the largest market share in 2018, while the optical multiplexers segment is
expected to register the highest CAGR during the forecast period. A transceiver
is a combination of transmitter and receiver included in the same package. The
transmitter portion of the silicon photonics takes many high-speed electrical
channels and converts them into a suitable high-speed optical signal. An active
optical cable converts the electrical signal into the optical signal over short
and long distances. AOC’s are mainly deployed in data centers and
high-performance computing applications where the combination of value and
distance is required. Optical multiplexers consist of combiners, filters, tap
couplers, splitters, and optical fibers. There are mainly three different
techniques in multiplexing light signals onto a single optical fiber link,
namely code division multiplexing (CDM), wavelength division multiplexing
(WDM), and optical time-division multiplexing (OTDM). A variable optical
attenuator is a type of passive component that reduces the amplitude of the
light signal without changing the waveform. An optical engine is a setup that
contains electronics and controls. Optical engines do not include heat removal
interface and pumping sources of a fiber laser.
Based on component, the market has been classified as laser,
photodetector, modulator, micro-optics (microlens, micromirror, light diffuser,
beam shapers, and others) and passive optic components (silicon lens, optical
receptacles, AWG terminals, optical isolators, mux/demux modules, micro-optical
filters). The laser segment accounted for the largest market share in 2018,
photodetector segment is expected to register the highest CAGR during the
forecast period. In optical fiber communication, a laser (source of light) is
used to emit electromagnetic radiation in order to detect faults, microbeads
and breaks, and characterizing link-loss. Lasers add a mechanism for optical
feedback such as mirrors, to stimulate further emission and create a
high-intensity beam of radiation. A photodetector is a device that absorbs the
light and converts the optical energy into measurable electric current. The two
main types of photodetectors are thermal and photon. An optical modulator is a
device that is used for deploying a property of light. Acousto-optic
modulators, electro-optic modulators, electroabsorption modulators, interferometric
modulators, fiber-optic modulators, liquid crystal modulators, and
micromechanical modulators are a few types of optical modulators. Microlens is
also referred to as a micro lenticular array which is used to increase the
optical fill factor in charged coupled devices (CCD) such as interline-transfer
devices that suffer from reduced aperture due to metal shielding. Micromirrors
are microscopic size mirrors that are structured in matrix combinations to form
a digital micromirror device (DMD). Diffusers are optical components used to
allocate light from a source while removing bright spots equally. Beam shaper
is a type of optical device that reshapes a light beam. Silicon lenses are
mainly used for infrared LED applications; they also prove beneficial in the
silicon photonics transceiver. Receptacles are used to connect optical
connectors with optical modules and align the optical module axis. American
Wire Gauge (AWG) is the US standard set for non-ferrous wire conductor
sizes. Optical isolators are devices used for transmission of the optical
signal. It supports unidirectional mode of transmission hence it is useful in
conjunction with lasers and majorly used to avoid unwanted optical reflections
in optical systems. Mux/Demux module is a passive device, available in a
variety of wavelength combinations generally from 1270nm to 1610nm. An optical
filter is a key component in optical networks. Optical fibers are essential to
split and combine wavelength channels.
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Based on end-user, the market has been classified as consumer
electronics, IT & telecommunication, commercial, military & defense,
healthcare, and others. The IT & telecommunication segment accounted for
the largest market share in 201; it is expected to register the highest CAGR
during the forecast period. Silicon photonics primarily enables high-speed data
transfer. Data transfer is applicable for various devices such as smartphones,
wearable devices, and tablets and laptops. Silicon photonics is used to create
transmitters and receivers for fiber-optic telecommunications. Many companies
are switching to silicon photonics from traditional copper cables. With the
help of silicon photonics, companies can develop compact, more efficient, and
more affordable products in which optical signals are used for precise
measuring, laser imaging, and rapid data transfer. The military uses imaging
and other information for activity-based intelligence by lightweight,
low-power, and low-cost silicon photonics. Silicon photonics is used in DNA
sequencing machines, miniaturized diagnostic tests using disposable photonic
chips, accurate body monitoring sensors, brain stimulation machines.
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