Learn the science behind Lidar, Radar, and Sonar technologies. Explore their applications, benefits, and differences in the realms of land, space, and water.
Discover how the synergy of Superluminescent Diodes (SLDs) and Semiconductor Optical Amplifiers (SOAs) is transforming the telecommunication industry.
The application of semiconductor optical amplifiers (SOA) is not restricted to signal amplification. It’s also crucial in optical switching, all-optical signal processing, demultiplexing, regeneration, and wavelength…
Dive into the world of LiDAR laser technology and its revolutionary impact on precision, accuracy, and environmental understanding…
Experience the cutting-edge technologies of LiDAR lasers for remote sensing. In this blog, we take a comprehensive look at 5 types of laser technologies…
Learn about Lidar lasers and their role in revolutionizing how we perceive and map our surroundings. Explore their applications in autonomous vehicles…
Superluminescent Diodes (SLD) is a Semiconductor device to emit low-coherence light of a broad spectrum like LED, But high brightness like LD, Laser Diode.
Discover the awesome things you can learn about Superluminescent Diodes (SLDs) – a type of semiconductor laser that emits broad-spectrum light, with applications in optical coherence tomography, fiber optic sensing, and more.
Learn about the benefits of using an O-band optical amplifier for monitoring a 100G Ethernet network, including improved signal quality, longer transmission distances, and reduced costs compared to other amplification solutions.
Superluminescent diodes offer a broad-spectrum light source for various applications. Discover the application of using superluminescent diodes as per your needs.
The broadband light source is a type of light source that gained popularity in optical spectroscopy and is perfect for OEM integration.
This introduction to LIDAR laser technology provides an overview of what it is, how it works, and its various uses in fields such as autonomous vehicles, topography, and more.
Any airborne drone with a LiDAR sensor attached is a LiDAR drone. The cost and size of LiDAR sensors have significantly decreased…
A new generation of rather robust broadband light sources, however, is gradually taking over the spectroscopist’s toolkit.
The SLED’s peak wavelength and intensity are influenced by the active material’s composition as well as the degree of injection current.
A DFB laser is a laser diode or optical fiber laser with a low linewidth grating that extends throughout the cavity rather…
Optical coherence tomography (OCT) is a rapidly growing, advanced technology that has transformed ophthalmology practice…
Superluminescent diode is a high-power LEDs that are built around a PN junction embedded in an optical waveguide. When electrically biased…
Gain chips are semiconductor optical devices used in external cavity laser diodes as the optical gain medium. It is used as a TLS with a wavelength…
The Distributed Feedback Laser, also known as the DFB laser diode, is a type of laser widely used for high-capacity long-distance transmission.
The FP laser, also known as the Fabry Perot Interferometer (FPI), is a type of laser that is widely used in the telecommunications , astronomy, and other industry.
Learn about DFB and FP Laser with their structure and applications. And in the last, we see a quick comparison of both of these lasers.
Lidar laser is widely used for various aspects like Autonomous vehicles, mapping, Smartphones, and more. The main object behind this blog is to guide you about the uses of lidar technology.
Swept-source OCT is the latest milestone in retinal and choroidal imaging. It has the ability to penetrate deeper & faster acquisition time made it possible to get a high-resolution image of retinal structures.
Optical Coherence Tomography (OCT) is a new-age clinical technology that is widely used in ophthalmology among other medical fields. It is used to evaluate and treat the disorders associated with the optic nerve.
In simple words, compared to conventional edge-emitting light diodes, VCSEL emits light or vertical beam from its top surface. Let us comprehend how VCSEL works and its major characteristics.
We have discussed how LiDAR laser is transforming the way we see the world. There are countless applications at present; however, in this article, we’ve covered the Top 4 applications.
DFB stands for Distributed Feedback. It is a type of narrow linewidth laser diode or an optical fibre laser where the grating generally happens along the cavity, and not just at the two ends.
A semiconductor optical amplifiers work similarly to a laser. A semiconductor optical amplifier is an optical amplifier based on a semiconductor gain medium. It is essentially the same as a laser diode.
LiDAR laser applications have grown dramatically in the past few years. As a result, this technology is now used in almost every industry, including agriculture, forestry, military, mining, transportation, etc…
SS-OCT has successfully established itself as one of the most innovative imaging technologies with substantial clinical impacts and acceptance in ophthalmology. Below are some of the critical applications of SS-OCT.
A Semiconductor Optical Amplifier (SOA), which is Really a laser diode with no feedback from its input and output ports and hence it is also referred to as a Travelling Wave Amplifier(TWA).
These lasers have not only contributed to addressing the needs of the telecommunications industry but have also caused the disappearance of DBR lasers from the market.
The use of superluminescent diodes for OCT. The unique properties of superluminescent diodes, such as low coherence light, high brightness, smooth optical output spectrum.
In an optical fiber communications system, several transmission bands have been defined and standardized, from the original O-band to the U/XL-band. Optical amplifiers uses in other points in a network.
Many advances have been made in the field of science and technology which have made a huge impact on how the world functions. One such advancement is the development of swept source.
A laser diode also called an injection laser or diode laser is a semiconductor device that produces coherent radiation in the visible or infrared color when current passes through it. In Current Days…
The Superluminescent Diodes is a Semiconductor device to emit low-coherence light of a broad spectrum, But high brightness like LD. Inphenix Designs & Manufactures Lasers & Light sources.
The FP laser, also known as the Fabry-Perot interferometer, makes use of the multiple beam interference phenomena, which occurs when light passes through a cavity enclosed by two reflective parallel surfaces.
A broadband light source is a device that’s used for multi-wavelength tests & measurements of wavelength-division-multiplexing components. These use the amplified spontaneous emission.
VCSEL are also more commonly used in long-wavelength communication technologies. The numerous benefits provided by VCSEL technology can be summarised here…
A Superluminescent light emitting diode is equal to a laser diode, based on an electrically induced Pn-Junction, When influenced in the front direction, becomes…
Swept source optical coherence tomography, also known as swept source OCT or SS-OCT, is an ophthalmic imaging technology used to diagnose and cure…
This article discussed what superluminescent diodes are, their salient characteristics, and why it is the preferred choice for imaging applications.
The most recent broadband light sources are superluminescent light-emitting diodes, which have only recently become available across a wide spectral spectrum.
Swept source OCT has become popular quickly in medical technology & made a very deep contribution. So let’s know the benefits and drawbacks of SS-OCT over SD-OCT.
Swept source OCT has become popular quickly in medical technology & made a very deep contribution. So let’s know the benefits and drawbacks of SS-OCT over SD-OCT.
Swept source OCT has become popular quickly in medical technology & made a very deep contribution. So let’s know the benefits and drawbacks of SS-OCT over SD-OCT.
In this blog post, we will look at what a broadband light source is, how it works, and how it opens up new opportunities for spectroscopists.
LiDAR laser, which stands for Light Detection and Ranging.So, how does LiDAR system work and what components are used to build it? Let’s find out!
Simply put, broadband light sources are light sources that produce light across a wide range of wavelengths, as opposed to monochromatic light sources…
The development of in-house O-band amplifier networks is a goal for future optical communication improvement. Such networks based on simple optical fiber…
In the last decade, there has been substantial growth in the application of LiDAR lasers. Let’s check out top 5 advantages of LiDAR technology.