Why Use Superluminescent Diodes For OCT (Optical Coherence Tomography)?

https://www.inphenix.com/en/explained-superluminescent-diodes-for-optical-coherence-tomography/

It is not uncommon to see the use of superluminescent diodes for optical coherence tomography.

Because of the unique properties of #superluminescentdiodes (SLD), such as low coherence light, high brightness, minimal spectral ripple, and broad, smooth optical output spectrum, it is the preferred and perfect solution for optical coherence tomography.

Why Swept Source Is an Important Development?

https://www.inphenix.com/en/changing-how-world-sees-swept-source/

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 #sweptsourcelaser, which has revolutionized the field of medical ophthalmology.

5 Effective Uses of LiDAR Laser - Inphenix

https://www.inphenix.com/en/top-uses-of-lidar-technology/

#Lidarlasers are 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.

#LiDAR is the acronym for Light Detection And Ranging. Three main components that contribute to the collection and analysis of data- are scanning equipment, lasers, and GPS receivers.

Fiber DFB Lasers Vs Semiconductor DFB Lasers - Inphenix

https://www.inphenix.com/en/types-of-dfb-laser/

The Distributed Feedback Laser, also known as the #DFBlaserdiode, is a type of laser widely used for high-capacity long-distance transmission.

Fiber-optic sensing, laser radar, fiber optical communication, barcode readers, disc reading, and laser scanning are just a few of the major applications of DFB lasers.

Complete Overview of Broadband Light Source - Inphenix

https://www.inphenix.com/en/broadband-light-source-overview/

A #broadbandlightsource is a device that is used for multi-wavelength tests and measurements of wavelength-division-multiplexing components. These light sources use the amplified spontaneous emission of diode-pumped, erbium-doped fibers.

Most of the superluminescent diode light source sets consist of two types of equipment: first Broadband Light Source Modules and second broadband light source desktops.

About (light detection and ranging) Lidar Laser - Inphenix Inc.

https://www.inphenix.com/en/solution/lidar/

#Lidarlaser is an acronym for “light detection and ranging.” It is sometimes called “laser scanning” or “3D scanning.” Lidar is used in many industries, including automotive, infrastructure, robotics, trucking, UAV/drones, industrial, mapping, and many more. Because lidar is its own light source, the technology offers strong performance in a wide variety of lighting and weather conditions.

VCSEL Light Source and Its Structure - Inphenix

https://www.inphenix.com/en/vertical-cavity-surface-emitting-laser-vcsel/

#VCSELs have progressed from laboratory devices to industrial mass production devices in the last few years. The vertical-cavity surface-emitting laser is a type of semiconductor laser diode with laser beam emission perpendicular from the top surface, contrary to conventional edge-emitting #semiconductorlasers which emit from surfaces formed by cleaving the individual chip.

Gain Chip: Semiconductor Optical Elements - Inphenix

https://www.inphenix.com/en/gain-chip/

#Gainchips are semiconductor optical elements used as the optical gain medium of external cavity laser diodes. Gain chips are used as a TLS (Tunable Light Source) that can change the oscillation wavelength using a wavelength selection filter such as a diffraction grating.

Gain chips have 2 opposing waveguide end facets, one with high reflectivity or a low reflectivity of several percent.

Best Laser Diode: DFB Laser - Inphenix Inc.

https://www.inphenix.com/en/distributed-feedback-lasersdfbs/

A #distributedfeedbacklaser (DFB) is a type of laser diode or optical fiber laser where the active region of the device contains a periodically structured element or diffraction grating.

The spectral width of the Distributed feedback laser is narrow so it gives high output power and emits single-longitudinal mode coherent light. In a #DFBlaser, the grating and the reflection are generally continuous along the cavity.

Semiconductor Optical Amplifiers (SOAs): No Feedback Laser Diode

https://www.inphenix.com/en/semiconductor-optical-amplifiers/

A Semiconductor Optical Amplifier is essentially a laser diode (LD) with no feedback from its input and output ports and hence is also referred to as a Traveling-Wave Amplifier (TWA). SOAs have proven to be versatile and multifunctional devices that are key building blocks for optical networks.

#SemiconductorOpticalAmplifiers should have the highest gain appropriate to the application.

How Broadband Light Sources Have Advanced Spectroscopy?

https://www.inphenix.com/en/explained-how-broadband-light-sources-have-advanced-spectroscopy/

In the past, discharging lamps, colour lasers and optical parametric oscillators were the only useful sources for spectroscopy. However, with the introduction of new technologies, spectroscopy has advanced to a new level. Supercontinuum lasers, light-emitting diodes, and laser-driven plasma technologies are new models of #broadbandlightsources.

Introduction of VCSEL (Vertical Cavity Surface Emitting Laser) At Inphenix

https://www.inphenix.com/en/vcsel-introduction/

A #VCSEL is a surface-emitting semiconductor light source that emits laser beams in a direction perpendicular to its top surface. In simple words, compared to conventional edge-emitting light diodes, VCSEL emits light or vertical beams from its top surface.

Compared to conventional edge-emitting light diodes, VCSEL emits light or vertical beams from its top surface.

Superluminescent diodes for optical coherence tomography (SD-OCT) - Inphenix

https://www.inphenix.com/en/what-superluminescent-diodes-for-optical-coherence-tomography/

#OpticalCoherenceTomography (OCT) is a novel clinical technology that is widely used in ophthalmology and other medical fields. The technology provides two and three dimensional, cross-sectional, micron-scale images of biological tissues within optical scattering media.

Advantages of O-band Amplifier In 100G Ethernet Network Monitoring

https://www.inphenix.com/en/o-band-optical-amplifier-for-100g-ethernet-network/

The benefits of using an #obandamplifier for monitoring 100G Ethernet include excellent reliability and minimal service downtime. Furthermore, the optical TAP (Test Access Point) used for monitoring is a passive optical power splitter with a low failure rate. This will reduce the risk of failure in the long run.

Advantages of Lidar Laser - Inphenix

https://www.inphenix.com/en/advantages-of-lidar-laser/

In the last decade, there has been substantial growth in the application of #LiDARlasers. It has now become an important instrument that has use cases in all of these domains, ranging from agriculture to military equipment, autonomous vehicles and archaeology.

Unlike Radar, which uses radio waves as a medium for transmission and reception, #LiDAR uses light rays. And also give accurate surface measurement as well as 3D mapping.

Features of O-band Optical Amplifier - Inphenix

https://www.inphenix.com/en/features-of-o-band-amplifier/

In an optical fiber #communicationssystem, several transmission bands have been defined and standardized, from the original O-band to the U/XL-band.

Optical amplifiers are also employed at various other points in a network, for example, within an optical switching node to compensate for losses in the switch fabric. The #OBandAmplifier is Compact and has a Low Cost.

Superluminescent diodes for optical coherence tomography (SD-OCT) - Inphenix

https://www.inphenix.com/en/what-superluminescent-diodes-for-optical-coherence-tomography/

#OpticalCoherenceTomography (OCT) is a novel clinical technology that is widely used in ophthalmology and other medical fields.

This technology has been used extensively for imaging tissue microstructure in various medical fields. OCT primarily used two types of light sources for the imaging process- a) Femtosecond Lasers or b) #SuperluminescentDiodes (SLD).

Superluminescent diodes for optical coherence tomography (SD-OCT) - Inphenix

https://www.inphenix.com/en/what-superluminescent-diodes-for-optical-coherence-tomography/

#OpticalCoherenceTomography (OCT) is a novel clinical technology that is widely used in ophthalmology and other medical fields.

This technology has been used extensively for imaging tissue microstructure in various medical fields. OCT primarily used two types of light sources for the imaging process- a) Femtosecond Lasers or b) #SuperluminescentDiodes (SLD).

Features of O-band Optical Amplifier - Inphenix

https://www.inphenix.com/en/features-of-o-band-amplifier/

In an optical fiber #communicationssystem, several transmission bands have been defined and standardized, from the original O-band to the U/XL-band.

Optical amplifiers are also employed at various other points in a network, for example, within an optical switching node to compensate for losses in the switch fabric. The #OBandAmplifier is Compact and has a Low Cost.

Advantages of Lidar Laser - Inphenix

https://www.inphenix.com/en/advantages-of-lidar-laser/

In the last decade, there has been substantial growth in the application of #LiDARlasers. It has now become an important instrument that has use cases in all of these domains, ranging from agriculture to military equipment, autonomous vehicles and archaeology.

Unlike Radar, which uses radio waves as a medium for transmission and reception, #LiDAR uses light rays. And also give accurate surface measurement as well as 3D mapping.