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Wavelength meter Resolution vs Optical Spectral Resolution

When discussing the characteristics of the laser characterization tool, a really common confusion occurs between the terms “Optical Spectral Resolution” and “Wavelength meter Resolution”. Indeed, both of these specifications contain the word “resolution” and are amongst the most common specification of these characterization tools, but are referring to two widely different characteristics. The aim of this article is thus to well define both of the specifications and illustrate them by an example to avoid any mix up between the 2….


Efficient multi-mode fiber to single-mode fiber coupling : High speed VCSEL characterization

This article aims at illustrating the MMF to SMF coupling using a multimode scrambler, as introduced in a previous article, to couple a Vertical Cavity Surface Emitting Diode Laser (VCSEL) laser into a ZOOM Spectra high resolution Laser Spectrum Analyzer. Indeed, VCSEL laser are really compact semiconductors laser diodes with large Numerical Aperture emission beam perpendicular to their top surface, as illustrated figure 1. VCSEL are generally fabricated by batch of millions units on a wafer using standard semiconductor technologies….


Efficient multi-mode fiber to single-mode fiber coupling: comparison between the existing solutions

As described in a previous article, achieving an efficient light coupling from multimode fiber (MMF) to single mode fiber (SMF) is a difficult task, especially when trying to avoid any spectral losses while keeping an acceptable power conversion. The fiber to fiber coupling option, as well as the tapered fiber solution and the lenses system being discarded, other alternatives coupling systems have to be investigated. In the following article, the most common coupling setup, the integrating sphere as well as…


Efficient multi-mode to single-mode fiber coupling: introduction

The coupling of the optical signal from a multi-mode to a single-mode fiber is a critical issue in application fields that involve numerical aperture optical systems and high accuracy optical characterization tools, such as astronomy and laser testing. Indeed, such multi-mode to single-mode coupling is virtually impossible without loss of spectral information while keeping an acceptable power output. These articles will be aimed at screening the possible setups for such coupling, and finding the ones that offer the best trade-off…


High-Depth Optical Coherent Tomography (OCT)

In the last 25 years, Optical Coherence Tomography (OCT) has advanced to be one of the most innovative and most successful optical imaging techniques, reaching very high performance required for challenging applications like ophthalmic medicine, dermatology, angiography, and material analysis. OCT principle and domains The OCT technique is classically based on the principle of a Michelson interferometer, with a broadband light source as an input. The interferometric signature of this low coherence signal obtained with a Fourier Transform is a…

What is a Laser Spectrum Analyzer?

A Laser Spectrum Analyzer (LSA) can be defined as a high resolution spectrometer aimed at the characterization of narrow linewidth light sources. In other words it measures the spectral density of a laser as a function of the wavelength. These instruments are typically used to check the spectral purity of laser sources, or to measure their Full Width Half Maximum. It exists two main methods to perform spectral analysis: Grating based Laser Spectrum Analyzers: Using one or several diffraction grating…

How to phase modulate a laser: the Pockels effect

As discussed in a previous article, the phase modulation of a laser is used in ICF (Inertial Confinement Fusion) in order to prevent any damage to the system. The goal of this article is to present how this phase modulation is usually carried out. The phase modulation is accomplished using the Pockels effect created in the so-called Pockels cells. These cells are electro-optic crystals through which the light can propagate and the phase delay is modulated by the electric voltage…


How to choose a tunable laser?

Tunable lasers offer great flexibility to researchers and also industrials. They are used in many different applications areas: atmospheric sensing, biomedicine, microscopy, spectroscopy, atom cooling, defense, medicine, and more. We cannot help but notice that there is more than one type of tunable laser available on the market. What are the differences between those lasers? How to make a choice between them? Here is a quick summary of the tunable lasers available today and their range of performances. Something missing? Some…