FSOC operates on a straightforward principle: the transmission of modulated laser light through the air between a transmitter and receiver. This process involves lenses or parabolic mirrors to narrow and project the light toward the receiver where it is captured and focused onto an optical detector, typically a semiconductor photodiode. The optical signal is converted into an electrical one for processing (see Fig. 2).

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Christian Rookes is VP of marketing at Phlux Technology, a manufacturer of avalanche photodiode (APD) infrared sensors based in Sheffield, U.K. He has more than 25 years’ experience in technical marketing in semiconductor and optical communication fields. Rookes holds a BSc in Engineering and Physics from Loughborough University and an MBA Essentials Certificate from the London School of Economics. He holds two patents, including one related to impedance matching for laser diode circuits.

The technology also shows great potential for intra-data-center communication, where its low latency and high bandwidth are attractive attributes.

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Compared to wireless systems, FSOC can operate with lower power consumption—which reduces cost and environmental impact. Narrow FSOC beams are also more focused than wireless emissions, and it boosts the received signal strength and mitigates the need for high-power transmitters. And antenna designs can be more compact using optics compared to RF. This reduces installation space constraints and aesthetic impact, which can be important where there is local sensitivity toward their presence. For cases in which the security of communications is important, FSOC systems may be preferred over wireless links because eavesdropping on optical links is technically challenging and the risk of interception is relatively low.

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Infrared eye protection is not limited to a specific industry or job type. It can benefit workers in various fields, such as welding, glass manufacturing, metalworking and more. The versatility makes it a valuable form of eye protection for a wide range of professionals.

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As mentioned previously, individuals working in industries exposed to high levels of infrared radiation are at risk of developing various health issues. These health issues can range from minor irritation and eye fatigue to more severe conditions such as cataracts. Infrared protection acts as a barrier, shielding the eyes from these harmful rays and reducing the risk of developing such conditions.

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Until recently, the sensitivity of 1550-nm APDs was limited by the internal noise generated within the devices, which limited the range and data rates achievable in FSOC systems. But in early 2024, noiseless InGaAs APDs were announced by Phlux Technology. These sensors, which add an antimony alloy to the compound semiconductor fabrication process, can detect exceptionally low levels of light down to single photons, which helps maintain signal integrity over long distances and under varying atmospheric conditions. They advance the performance of FSOC systems, offering 12x the sensitivity of traditional InGaAs APDs, which represents a potential 10.79-dB improvement in link efficacy before other noise sources such as amplifiers are considered (see Fig. 4).

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Atmospheric conditions have, until recently, been a limiting factor in distance and bandwidth capabilities in FSOC. But techniques to mitigate these, such as adaptive optics, are now used and result in improved data rates for a given bit error rate (BER).

In medical applications, FSOC technology shows promise for communication with subcutaneous implants, where skin-induced propagation loss can be mitigated.

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Wireless communication has witnessed remarkable advancements in recent years, driven by a growing demand for higher data rates and capacity. As traditional radio frequency (RF) and microwave technologies struggle to keep pace with these growing requirements, free-space optical communication (FSOC) has emerged as a frontrunner, to address bandwidth limitations and last-mile connectivity challenges (see Fig. 1).

In 2024, a collaborative European initiative was launched to enhance Earth-to-FSOC technology. This project, supported by the European Space Agency (ESA), brought together a specialized sensor manufacturer, Phlux Technology, Airbus Defense and Space, and the University of Sheffield (U.K.). The primary objective of the ongoing work is to develop more efficient FSOC satellite terminals. The mid-range target is reliable 2.5-Gbit/s communication links operating at an IR wavelength of 1550 nm with low Earth orbit (LEO) satellites. The satellites typically orbit at altitudes up to 2,000 km above Earth's surface. Looking further ahead, the team aims to create systems capable of consistent 10-Gbit/s transmission rates. A radiation-hardened, integrated IR sensor and amplifier will be developed for the system.

As FSOC evolves, it is poised to play an increasingly significant role in various sectors—from space exploration to medical devices, and 5G networks to next-generation data centers. As advances in IR sensor technology leverage its unique advantages, FSO technology has the potential to revolutionize connectivity across diverse environments to meet the growing demand for high-speed, secure, and efficient communication systems.

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This positive forecast is despite the acknowledged challenges of environmental interference and installation capital costs. The report highlights the need for devices with greater photon efficiency to mitigate some factors that could limit growth.

The space sector has recognized the potential of FSOC technology, particularly for satellite communications. The technology can be used for both earth-to-satellite and satellite-to-satellite communication. In the latter scenario, its performance is particularly impressive because atmospheric factors do not impede performance and in space, data rates can scale into the terabit-per-second (Tbit/s) range. As a result, the reduced weight, lower power consumption, and higher data rates of FSOC make it a particularly attractive alternative to RF systems in these applications (see Fig. 3).

VynZ Research’s report “Global Free Space Optics Market – Analysis and Forecast (2025-2030)”, forecasts a 30% compound annual growth rate (CAGR) for FSOC between 2025 and 2030, with the global market, led by the U.S., to reach a value of $1.9B, up from just $550M in 2023.

The technology leverages the visible and infrared (IR) light spectrum, in contrast to the RF spectrum used by most wireless systems. This offers significant benefits, not least a vast unlicensed spectrum in which FSOC systems typically operate at near-infrared (NIR) wavelengths between 700 and 1600 nm.

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These IR sensors are crucial components in FSOC receivers. Better sensors detect weaker signals, which enable development of faster, higher-bandwidth links with reduced latency. In Earth-to-satellite communications, they also improve performance because higher sensitivity allows maintenance of link integrity over a wider angle as the satellites pass overhead—resulting in longer periods of operation.

Infrared eye protection filters out harmful infrared rays while allowing visible light to pass through. This filtering process can help improve visual clarity and reduce glare, making it easier for workers to see their surroundings clearly. This is especially beneficial for those working in hazardous environments where clear vision is crucial.

There are many benefits that working individuals can gain from using infrared eye protection. Some of the must-know ones include:

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One of the key technical challenges with achieving Earth-to-satellite and terrestrial FSOC is that the IR signals used to transmit data are diffracted as they pass through the troposphere, the atmospheric layer closest to Earth. Variations in our atmosphere's air temperature, humidity, and turbulence cause fluctuations in the intensity and angle of incidence of IR signals. This makes the beam wander over the signal detector area, which limits performance. The issue is addressed by using large-area receptors comprising multiple IR sensors.

These advancements in APD technology are poised to significantly enhance the capabilities of satellite and terrestrial FSOC and potentially revolutionize space-based data transmission.

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A further benefit of FSOC is that wireless channels are either regulated or where not regulated are already densely populated. FSOC needs no license and due to its narrow transmission angle, it is less susceptible to interference from other signals.

In terrestrial applications, FSOC promises to be a cost-effective alternative to fiber-optic systems for high-speed connections in multipoint scenarios, such as large organizations or remote areas. Furthermore, its high capacity and low latency make it a promising technology for 5G backhaul links. Some hybrid systems are evolving that combine RF and FSOC technologies to provide greater reliability by adapting to varying weather conditions and interference levels.

The integration of FSOC technology with unmanned aerial vehicles (UAVs) could provide high-bandwidth communication in remote areas or during emergencies. For these applications, vertical-cavity surface-emitting lasers (VCSELs) may be preferred instead of APDs.

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Infrared light is an important part of the electromagnetic spectrum, responsible for many vital processes in our daily lives. However, as with any form of light, prolonged exposure to infrared rays can be harmful to our eyes. This is where infrared eye protection comes in handy.

Individuals working in industries such as welding, construction, and manufacturing are constantly exposed to high levels of infrared radiation. Without proper eye protection glasses, these workers risk developing various eye-related health issues.

Measuring the cost of infrared eye protection against the potential consequences of exposure to infrared radiation, it is clear that investing in protective eyewear is a cost-effective solution. It can prevent costly medical treatments and loss of productivity due to eye discomfort or injury.

Infrared eye protection is specialised eyewear designed to protect the eyes from harmful infrared radiation. It works by filtering out the damaging infrared rays while allowing visible light to pass through. This ensures that the eyes are shielded from potentially harmful radiation without compromising vision.

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1550 nm is a commonly preferred wavelength for FSOC. It is a sufficiently longer wavelength than visible light, so it’s “eye safe” if people encounter the signal, and avalanche photodiodes (APDs)—based on indium gallium arsenide (InGaAs) APDs—exhibit peak sensitivity to IR light at this wavelength. The Fraunhofer Heinrich Hertz Institute states that 1550-nm beams are 50x safer than those at 850 nm, which were also proposed for FSOC.

The future of FSOC looks promising and ongoing research and development is targeting enhancing system performance and expanding its applications.

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Constant exposure to infrared radiation can cause eye strain and fatigue, leading to discomfort. Discomfort can affect productivity and, in some cases, cause long-term damage to the eyes. Infrared eye protection helps reduce eye strain and fatigue by filtering out harmful rays, allowing individuals to work comfortably for extended periods.

Most analysts predict strong growth for the FSOC market driven by growing demand for LTE networks, a desire for an alternative to RF technology, the requirement for more secure high-speed communications, and to address the challenges of last mile connectivity in optical networks—for fiber-to-the-premises (FTTP) and fiber-to-the-home (FTTH) installations.

The first high-capacity space-to-ground laser communication system was installed on the Bartolomeo platform of the International Space Station (ISS) as part of a collaboration between Airbus Defense and Space, the Institute of Communications and Navigation of DLR (German Aerospace Center), and Tesat-Spacecom GmbH & Co. KG. The 2018 project, called OSIRIS, was designed to provide direct-to-earth (DTE) technology with a data rate of 10 Gbit/s over a range of about 1,500 km.