Learn the basic principles, and best practices of laser measurement. You have a laser you’re about to start working with? You have enough experience with other technologies to know that you want to verify its performance; so you start looking for a tool to measure the laser’s…well, what? In other words: Where do I start?…
Since Columbia University graduate student Gordon Gould and Bell Laboratories scientists Charles Townes and Arthur Schawlow (among others) coined the term LASER in the 1950’s, applications of the laser have seemed limitless. Working with these new discoveries had to be exciting, but applying hundreds of kilowatts of laser power, like the ones being used in…
Surface micro structuring using ultra short pulse lasers is a unique technology with many applications such as thin film ablation, creating antireflective and optically absorptive surfaces, super hydrophobic or hydrophilic surfaces with anti-bacterial properties, and surface texturing for improved bonding strength. In the semiconductor and display industry, USP lasers perform very well-defined jobs such as…
There are lots of tips and tricks for ensuring top performance of your laser power meter and sensor, and for obtaining the best possible measurements, and in the most convenient way. I would like to share one easy method to make it easier to process logged measurements from multiple sensors. The ‘Problem’ – Apparent gaps…
The #PhotonicsWest 2023 Exhibition is open for business!Over 1,100 companies are showcasing their latest products and solutions, so make sure to stop by our booth (#927) and speak to our experts to learn more about Ophir’s latest measurement innovations for different laser based applications: – Industrial high power – Additive manufacturing – Automotive – Material processing and…
A new measurement procedure allows for the fast and contact-free measurement of the focused laser beam. At the same time, modern measuring devices have Profinet interfaces and allow the processes to be documented. These are enormous advantages, especially in times of just-in-time production. The challenge – everything has to fit perfectly Automated laser welding is…
At its core, calibration is about ensuring that your equipment is working properly and in the way it is intended. Returning your equipment for periodic calibration allows for several things to take place including evaluation of your equipment for damage, opportunities for us to provide education, and upgrades to your firmware, as well as the…
If you need to measure laser pulse energies, you have probably run into a variety of issues and concepts that seem to just cause confusion… In this webinar, you will learn: • How energy measurement works (short basic version…) • How to make sure you are getting accurate readings • How to avoid out-of-tolerance issues…
Since their invention in 1960, lasers have become a fixture in science fiction, impressing the audience with their futuristic capabilities – namely, extreme precision and power. From Sci-Fi to reality Now, with decades of technological advancement, the gap between sci-fi and reality is closing. These days, lasers up to 70 or 75KW can be produced…
Monitoring laser behavior in high-power applications is critical to keeping your process running properly. However, that monitoring – the laser measurement itself – is not trivial. There are many “little things” one could do that might unknowingly mess with the measurement, or even damage the instrument. For example: • At what point should the cooling…
When the Sensor Finder gives you a list of solutions for your laser, one of the things it tells you for each suggested sensor is how far below the damage threshold you are.
Ophir’s renowned StarLab software is an easy-to-use, yet powerful, laser measurement application which turns a PC into a laser power/energy multi-channel analysis workstation. However, StarLab is a ready-made closed PC application and communicates with Ophir Power Meters and PC Interfaces only. Let’s say you are a software programmer developing an application for a system in…