ABOUT OPHIR PHOTONICS GROUP

Ophir Photonics, a Newport Corporation, began making laser power meters, energy meters, and beam profilers in 1979, and we’ve never looked back. We have headquarters in the United States, Israel, Japan, and Germany, as well as distributors in over 50 countries worldwide.

We pride ourselves on two things:
precise laser measurement equipment and versatile solutions.

Precision
If you want to get the most out of your laser – most power, most efficiency, most safety – you need to measure it. And the more accurate your measurement, the closer you can come to perfection in your laser.

Versatility
In the last 35 years, we’ve seen so many new types of lasers and laser applications that it would be pointless to list them here. You know them as well as we do. We take great pride (and enjoyment) in keeping up with laser development. That’s why you’ll find such a wide variety of laser measurement equipment offered here as well as a variety of accessories to make sure your laser can be measured regardless of its wavelength, power, or size.

Innovation
We produce a complete line of instrumentation including power and energy meters, beam profilers, spectrum analyzers, and goniometric radiometers. Dedicated to continuous innovation in laser measurement, our patents include the R&D 100 award-winning BeamTrack power/position/size meters; BeamWatch®, the industry’s first non-contact, focus spot size and position monitor for lasers in material processing; and Spiricon’s Ultracal™, the baseline correction algorithm that helped establish the ISO 11146-3 standard for beam measurement accuracy. The Photon family of products includes NanoScan scanning-slit technology, which is capable of measuring beam size and position to sub-micron resolution.

We’re ISO/IEC 17025:2005 accredited for calibration of laser measurement instruments.

FEATURED ARTICLES

Medical Laser Applications: Beam Measuring And Profiling
Medical Laser Applications: Beam Measuring And Profiling This article discusses the importance measuring and profiling laser beams in medical laser applications.  Continue Reading...
The Top Mistake Medical Device Engineers Make When Designing Laser Integration
The Top Mistake Medical Device Engineers Make When Designing Laser Integration When do you take on the design all on your own, and when do you outsource? This article presents the top mistake medical device engineers make when attempting to integrate lasers in the design.  Continue Reading...
How To Ensure Accuracy Of Laser Measurement In Medical Devices
How To Ensure Accuracy Of Laser Measurement In Medical Devices Medical devices need to be precise in order to ensure the health of the patient. This article addresses considerations needed to make sure laser measurement sensors in medical devices are accurate, and will continue to remain as accurate as possible.  Continue Reading...
SLM Troubleshooting Made Easy With BeamWatch® AM
SLM Troubleshooting Made Easy With BeamWatch® AM The BeamWatch® AM was designed to address the issues and parameters dictated by selective laser melting (SLM) machines. This application note discusses how to use the BeamWatch® AM non-contact beam measurement device for simplified SLM troubleshooting.  Continue Reading...
Evaluating A Multimodal Beam: A Brief Tutorial Highlighting The Use Of BeamGage PRO Partitioning
Evaluating A Multimodal Beam: A Brief Tutorial Highlighting The Use Of BeamGage PRO Partitioning Lasers were initially designed to operate in one fundamental mode. Soon after, researchers devised ways of generating and using more complex, higher-order multimode formats. This application note offers an example tutorial on how to evaluate a multimodal laser beam with BeamGage PRO Partitioning.  Continue Reading...
Laser Measurement Solutions For Medical Applications
Laser Measurement Solutions For Medical Applications Lasers in medical applications are able to deliver precisely controlled energy without physical contact. They can be used as a surgical tool, a production tool for medical device manufacturing, as well as in medical measurement applications.  Continue Reading...
Achieving Standardized Measurements With BeamWatch AM The BeamWatch AM is Ophir-Spiricon’s beam monitoring system designed specifically for use in the additive manufacturing industry to provide non-interfering real-time beam measurement at the location of the working plane.   Continue Reading...
How Ophir-Spiricon Determines The Dynamic Range Of Laser Measurement Products
How Ophir-Spiricon Determines The Dynamic Range Of Laser Measurement Products This article explains the importance of understanding and stating a dynamic range correctly. This paper also provides insight on how Ophir-Spiricon, a global leader in precision infrared optics and photonics instrumentation, determines its products’ dynamic range properly.  Continue Reading...
How To Make Laser Welding And Cutting Affordable And Sustainable
How To Make Laser Welding And Cutting Affordable And Sustainable This article discusses the consequences of poor measurements in more detail, and presents a measurement solution that can help make applications like laser welding and cutting affordable and sustainable.  Continue Reading...
Laser Beam Diagnostics In GHz Applications
Laser Beam Diagnostics In GHz Applications It usually is insufficient to rely on one standard measurement technology when working with applications in exotic optical wavelengths and unusually low average powers. This white paper goes through an example of calculating many laser beam diagnostics within high GHz applications.  Continue Reading...
What To Expect In A Laser Profiling Demonstration
What To Expect In A Laser Profiling Demonstration When asking someone for a laser beam profiling demonstration, it is important to understand what you are asking for and what you should expect. This white paper covers the steps needed to take to set up a demonstration, and what is expected of each party.  Continue Reading...
Working In The Basement: Measuring Signals Below The Noise Floor With A Lock-In Amplifier
Working In The Basement: Measuring Signals Below The Noise Floor With A Lock-In Amplifier This article presents the advantages of using lock-in amplifiers for measuring signals below the noise floor, how they work, and available devices from Ophir.  Continue Reading...
Sensor Fusion Enables Comprehensive Analysis Of Laser Processing In Additive Manufacturing
Sensor Fusion Enables Comprehensive Analysis Of Laser Processing In Additive Manufacturing This white paper discusses sensor fusion, a process that merges data from numerous sensors to create a more complete understanding of the laser-enabled process.  Continue Reading...
Testing High-Volume LED Luminaire Builds
Testing High-Volume LED Luminaire Builds The lower operating costs of LED luminaires drive growing demand for them in consumer and commercial markets. This increased demand requires an adaptation to improved quality testing methods that can provide superior measurements and not slow down the process of production.   Continue Reading...
Assuring Correct Metallurgy In Direct Laser Melting
Assuring Correct Metallurgy In Direct Laser Melting This application note presents how Ophir Optics’ BeamCheck system is able to measure critical laser beam parameters for laser-based additive manufacturing.  Continue Reading...
Laser Engraving Resolution Chart
Laser Engraving Resolution Chart This article reports the measurement results acquired when a metal sheet was scanned with a resolution chart engraved on its surface.  Continue Reading...
Intro To Laser Management: Laser Profiling 101
Intro To Laser Management: Laser Profiling 101 Traditionally, laser operators only verify a laser’s average power or energy to improve efficiency and, if everything is in order, put their laser back into service. This article discusses steps required to identify and use a camera profiling system (arrayed camera, attenuator, and beam dump) for laser management.  Continue Reading...
Reducing Production Waste With Laser Profiling And Characterization
Reducing Production Waste With Laser Profiling And Characterization A critical component in a laser manufacturing process is the understanding of which process parameters or key control characteristics must be measured and how they will relate to product quality and waste. A laser profiling system can be a great benefit for characterizing and identifying which variables affect product quality and waste minimization. Unfortunately, many companies realize this too late and incur more expenses and extended downtime ...  Continue Reading...
Utilizing A New Autofocus Technique For Laser Systems With Optimet's Non-Contact Distance Sensors
Utilizing A New Autofocus Technique For Laser Systems With Optimet's Non-Contact Distance Sensors Many of today’s conventional marking, welding, drilling, and cutting laser systems have the challenge of focusing the laser accurately on the object’s surface. As the demand for faster and more precise manufacturing processes increase, the need to control the focal point of a laser becomes much more critical. This application note discusses a new laser measurement method that integrates Optimet sensors into laser systems, offering...  Continue Reading...
Materials Processing: When Laser Measurements Absolutely, Positively Must Be Made
Materials Processing: When Laser Measurements Absolutely, Positively Must Be Made In order to improve laser-based processes, a variety of parameters must be measured to understand how design changes effect performance, and how to help avoid component degradation. The challenge occurs when figuring the proper frequency of measurements throughout the life of the laser, choosing which measurements should be tracked, and what should be done with the collected data. There are five times within a laser system’s lifetime where ...  Continue Reading...
Measuring Small-Beam MFD: Overcoming the Challenges
Measuring Small-Beam MFD: Overcoming the Challenges Accurate beam size measurements for beam sizes under 10 μm are critical for many applications such as fiber optic coupling efficiency, defect scanning, optical design, and optical fabrication process control. The challenges for such a measurement include the use of focal plane arrays that are too large to reasonably profile without magnification, the high mechanical precision of the beam profiling apparatus, and the beams’ high...  Continue Reading...
Additive Manufacturing And 3D CAD
Additive Manufacturing And 3D CAD This article discusses the process of transforming a 3D CAD model into a mechanical component, as well as how to use a camera based beam profiling system to assist in achieving consistently accurate constructs.  Continue Reading...
Select The Right Laser Power Sensor By Asking The Right Questions
Select The Right Laser Power Sensor By Asking The Right Questions When a sensor turns out to be an incorrect choice, the system could procure inaccurate measurements, premature failure, and costly full disc replacement and recalibration. This article presents three critical questions to ask before selecting a laser power sensor for a specific application.  Continue Reading...
Reimaging UV Laser Beam Profiling Ophir-Spiricon offers three families of UV converter products designed for the indirect measurements of UV laser beam profiles. This application notes compares and contrasts each family, and covers their basic specifications and applications.  Continue Reading...
University Research Team Faces Challenges Of Measuring Multiple Lasers There are often times where several laser sources must be tested, validated, or qualified for a particular project. Unfortunately, by the time scientists realize that these measurements need to be made, the laser systems are typically already in place, the experiments are ready to be conducted, and any delays could be counterproductive. Therefore, laser measurement equipment needs to be cost effective, commercially available, easy to use, quick...  Continue Reading...
Minimizing Corrosion In Water Cooled Sensors
Minimizing Corrosion In Water Cooled Sensors This article presents recommendations on minimizing corrosion that occurs in water cooled sensors.  Continue Reading...
Beam Diagnostics Improve Laser Heat Treatment Effectiveness
Beam Diagnostics Improve Laser Heat Treatment Effectiveness In order to get the highest quality heat treatments using lasers, it is important to understand the beam shape, the uniformity of the intensity, and the cleanliness of the delivery optics. This white paper discusses beam diagnostics with the use of Ophir’s BeamGage software used to improve results.  Continue Reading...
High Power Industrial Laser Applications: New Solutions To Old Problems
High Power Industrial Laser Applications: New Solutions To Old Problems The advanced scalability, high beam quality, and wall-plug efficiency of fiber lasers in particular have made high-power lasers a common tool for commercial use. This paper discusses the concepts of proper monitoring and correctly defined laser parameters in industrial laser applications.  Continue Reading...
Solving A Difficult Military Beam Alignment Task
Solving A Difficult Military Beam Alignment Task Laser systems used in the periscope of a nuclear-powered submarine providing on-board instrumentation that offers accurate pitch, yaw, and roll data. As a result of the critical nature of this information, the burden is placed on the quality of the laser beam, its size, its shape, and its intensity.   Continue Reading...
Development Of A Non-Contact Diagnostic Tool For High Power Lasers
Development Of A Non-Contact Diagnostic Tool For High Power Lasers This article discusses the technical challenges and solutions encountered in the development of the BeamWatch measuring instrument.  Continue Reading...
Measuring Pulsed Lasers With NanoScan 2s
Measuring Pulsed Lasers With NanoScan 2s The NanoScan 2s is a scanning slit, sensor-based, beam profiling system designed to profile pulsed laser beams with repetition rates in the 10 kHz range and above, and incorporate a “peak connect” algorithm to enable pulsed laser measurements. This application note discusses how the NanoScan 2s uses two modes of pulse operation for accurate beam profiling.  Continue Reading...
A Discussion Of Laser Beam Profiling And The Subject Of Accuracy
A Discussion Of Laser Beam Profiling And The Subject Of Accuracy There is no calibration standard from which a camera system can be verified based on beam profiling measurement accuracy. The next best thing is to enhance the input (camera), and output (software algorithms) of the imaging system for improved precision and repeatable results. This application note discusses how to achieve beam profiling measurement accuracy without the use of a standard calibration method.  Continue Reading...
5 Situations Where Laser Performance Measurement Is Necessary
5 Situations Where Laser Performance Measurement Is Necessary Laser performance measurements can be accomplished through a number of techniques and can give laser users more relevant, time-based data that portrays trends in laser operation rather than single data points.   Continue Reading...
Laser Ablation Makes Automotive Interiors Shine
Laser Ablation Makes Automotive Interiors Shine This application note describes how JUNO, the F150A-BB-26 thermopile laser power sensor, and StarLab measurement software are used to know the status of automotive etching equipment in order to keep the power beam stable.  Continue Reading...
High Power Lasers In Medical Applications
High Power Lasers In Medical Applications The full list of medical procedures involving lasers is growing every day and, when discussing the development and production of medical devices, the importance of high power industrial lasers cannot be overlooked.   Continue Reading...
LIDAR Guns, Accuracy, And Speeding Tickets
LIDAR Guns, Accuracy, And Speeding Tickets A Light Detection and Ranging (LIDAR) system uses a 130 μW 904 nm beam produced by three light emitting diodes (LEDs), and a telescope working together in order to calculate how long it takes for the beam to leave the device and return to the telescope.   Continue Reading...
Tutorial: Modifying Laser Beams – No Way Around It, So Here's How
Tutorial: Modifying Laser Beams – No Way Around It, So Here's How This app note discusses how to match an appropriate laser beam profiling technique - such as building an aligned optical system, collimation and focusing, high power laser quality measurements, and proper attenuation design - to a laser application.  Continue Reading...
System Integration Of Fiber Lasers And Its Effects On Laser Quality
System Integration Of Fiber Lasers And Its Effects On Laser Quality Recently, companies that perform system integrations have become more concerned about the quality of the laser delivered to the process and not just the quality of the laser source itself. Some companies are now starting to use beam profiling for much more than simply qualifying the laser source. They also leverage the technology to qualify the components that are integrated into their systems and to characterize the application of the laser.  Continue Reading...
Modifying Laser Beams 101 – No Way Around It, So Here's How
Modifying Laser Beams 101 – No Way Around It, So Here's How In this article we will discuss how to match an appropriate laser beam profiling technique to a laser application. The discuussion includes building an aligned optical system, collimation and focusing, high power laser quality measurements, and proper attenuation techniques.  Continue Reading...
Tutorial: The Importance Of CO2 Laser Optimization
Tutorial: The Importance Of CO2 Laser Optimization The New Year is a time to look back on the past year and contemplate on how to do things better. It’s a time to make New Year’s resolutions in an effort to be a better person. One of the most common and popular New Year’s resolutions is the renewed commitment to losing weight.  As many of us are all too familiar with, that means eating better and getting involved in a regular exercise routine. One of the advantages of...  Continue Reading...
Understanding Beam Profiling Dynamic Range
Understanding Beam Profiling Dynamic Range It all started when a slow-witted engineer was teased one too many times. Tired of being the butt of all his colleagues’ jokes, he plotted revenge. By Ephraim Shafner, Ophir Photonics  Continue Reading...
Tutorial: The Difficulties Of Beam Profiling 193nm DUV
Tutorial: The Difficulties Of Beam Profiling 193nm DUV A research organization was developing a critical procedure that required a pulsed DUV laser beam at 193nm. By Dick Rieley, Mid-Altantic Regional Sales Manager, Ophir Photonics Group  Continue Reading...
M<sup>2</sup> Beam Propagation – Why So Many Different Approaches To Measurement Instrumentation?
M2 Beam Propagation – Why So Many Different Approaches To Measurement Instrumentation? Measuring the propagation parameters of a laser beam is an important method of understanding the quality of the laser beam and predicting its performance for various laser applications. By Allen Cary, Director of Marketing, Ophir-Spiricon  Continue Reading...
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CONTACT INFORMATION

Ophir Photonics

3050 North 300 West

North Logan, UT 84341

UNITED STATES

Phone: 435-753-3729

Fax: 435-753-5231

Contact: Kenneth Ferree

NEWS

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HOT PRODUCTS

  • Compact, All-In-One LED Luminaire Measurement System: FluxGage
    Compact, All-In-One LED Luminaire Measurement System: FluxGage

    The FluxGage is Ophir’s new compact measuring system for LED Luminaires that measures their total flux, color (CCT, CRI, Duv, chromaticity), and flicker. The system measures the total flux using solar panels instead of an integrating sphere, delivering the same functionality in one third of the size. The gauge is capable of measuring any luminaire that fits into its opening.

  • High Resolution Beam Profiling Camera With GigE Interface For High-Speed Applications: SP920G
    High Resolution Beam Profiling Camera With GigE Interface For High-Speed Applications: SP920G

    The new Ophir® SP920G GigE Silicon CCD High Resolution Camera is designed to capture and analyze wavelengths from 190 nm - 110 nm for industrial laser beam profiling applications. With a compact design, wide dynamic range, excellent signal to noise ratio, and a high-speed GigE (Gigabit Ethernet) interface, the camera is ideal for measuring CW and pulsed laser profiles in applications such as laser cutting of medical devices or the welding of dissimilar materials.

  • Ophir® Power Meter For Fluorescence Microscopy: PD300-MS
    Ophir® Power Meter For Fluorescence Microscopy: PD300-MS

    The new Ophir® PD300-MS microscope slide power meter designed to make accurate measurements of emitted light from fluorescent microscopes. Measuring power levels of high numerical aperture (NA) objectives, from 5 µW to 1 W, this power meter can be used with a wide range of light sources in such applications as photo-activation or photo-bleaching.

  • Portable Laser Power/Energy Meter With Sophisticated Graphical Display And Advanced Math Functions: Ophir® Centauri
    Portable Laser Power/Energy Meter With Sophisticated Graphical Display And Advanced Math Functions: Ophir® Centauri

    The Ophir® Centauri is a compact, portable laser power and energy meter designed to make precise measurements of laser performance over time. This meter features a large, full-color, seven-inch touch screen for the review of visual data using a wide range of graphical display formats. The Centauri also offers advanced math functions, including density, scale factory, and normalize against baseline.

  • Ophir® Focal Spot Analyzer For Monitoring Material Processing Laser Performance
    Ophir® Focal Spot Analyzer For Monitoring Material Processing Laser Performance

    The new Ophir® Focal Spot Analyzer is a laser beam monitoring system designed to measure the focus spot and power of high power lasers in real time. Capable of measurement of focal sizes down to 35 µm and laser power from less than 1 to 400 Watts for wavelengths from 266 – 1100 nm, these analyzers are ideal for laser applications with shorter working distances.

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FEATURED VIDEOS

  • Low Power Measurements: Best Practices
    Low Power Measurements: Best Practices

    Measuring very low power beams of light can be tricky; even small values of noise, drift or offset can have major impact on your readings. In this video, we’ll look at some best practices that can help you get the best performance from your very low power measurements.

  • How To Choose Your NanoScan
    How To Choose Your NanoScan

    Scanning slit profilers can make very accurate measurements of beam diameters as small as 5 microns, while cameras are limited to beams greater than 45 microns. This makes applications for focusing lasers or building optical systems much easier with a NanoScan. This video explains how to choose the right NanoScan for your application.

  • How To Choose The Right Laser Beam Profiler
    How To Choose The Right Laser Beam Profiler

    On day two of Photonics West, Christian Dini with Ophir Photonics talked to us about selection criteria for choosing the right laser beam profiler. Watch the video to learn more about what to consider when selecting a beam profiling system for your application.

  • Product Video: Non-Contact Laser Beam Profiling System For Additive Manufacturing
    Product Video: Non-Contact Laser Beam Profiling System For Additive Manufacturing

    Christian Dini of Ophir Photonics took time at Photonics West to discuss Ophir Photonic’s non-contact BeamWatch beam profiling system, ideal for searching for focal position, focal shift, and focal size within additive manufacturing applications.

  • Medical Eye Surgery
    Medical Eye Surgery

    In this video, Jimmy Green, an OEM Specialist, shares how Ophir Photonics assisted a lasik surgery company replace a plastic mode burn pre-test with an accurate laser measurement device.

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