Blog What’s in Your Marking and Coding System? What’s in Your Marking and Coding System? Whether you are trying to keep pace with global regulations, national laws or industry guidelines, digital marking and coding brings many advantages to manufacturers seeking to optimize Keep Reading
Blog What is the Difference? Beam Size vs. Clear Aperture Understanding the design of laser beam systems that utilize Keep Reading
Blog Essential Elements for Laser Additive Manufacturing Essential Elements for Laser Additive Manufacturing Precise, reliable components with proprietary features to produce high quality parts Keep Reading
Blog The Many Advantages of Laser 3D Marking Speed. High Quality. Durability. Flexibility— those are just a few of the key benefits of 3D laser Keep Reading
Blog What’s in Your Marking and Coding System? What’s in Your Marking and Coding System? Whether you are trying to keep pace with global regulations, Keep Reading
Blog Holography & the Basics of Holographic Storage Holography is a technique where an object is imaged in a way that, when viewed later, it Keep Reading
Blog What is Particle Imaging Velocimetry? Particle imaging velocimetry is a laser optical measurement technique. This technique is non-intrusive and is used in Keep Reading
Blog Ultrafast Lasers from Novanta What are Ultrafast Lasers? Ultrafast lasers produce extremely short pulses of light; usually on the order Keep Reading
Blog Laser Lithography: An Overview Laser lithography is a versatile technique for the creation of microstructures such as microelectromechanical systems (MEMS) and Keep Reading
Blog How Laser Additive Manufacturing is Revolutionizing Industrial Production Advances in digital technology have enabled additive manufacturing to revolutionize industrial production by incorporating fast, precise methods Keep Reading
Blog A Very Brief Guide to Femtosecond Lasers Lasers emit light either continuously or in a train of pulses. Under the heading of ultrafast lasers Keep Reading
Blog What is the Difference? Beam Size vs. Clear Aperture Understanding the design of laser beam systems that utilize beam steering technology, more specifically pairing a beam Keep Reading
Blog An Introduction to Fluorescence Imaging Imaging microscopic biological specimens demands greater resolution than can typically be attained via conventional microscopy. Consider a Keep Reading
Blog The Benefits of Dual-Comb Spectroscopy Dual-comb spectroscopy, sometimes abbreviated to DCS, is an advanced spectroscopic technique. This technique deploys two coherent laser Keep Reading
Blog Five Advantages from the SyncMaster for Delivering Unlimited Productivity Cambridge Technology recently announced the latest release of ScanMaster Controller & Designer V3.0. With this release, we Keep Reading
Blog What is Time-Resolved Electron Microscopy? Electron microscopy (EM) is a powerful imaging technique renowned for its outstanding spatial resolution. It surpasses the Keep Reading
Blog A Quick Look into Micromachining Ever wondered how small 1-500 µm is? To give you a better idea, the average width of Keep Reading
Blog Continuous Wave Lasers: Understanding the Basics Laser technology as we know it was first envisaged on a park bench in Washington in 1951, Keep Reading
Blog How to Choose a Raman Spectroscopy Laser Raman spectroscopy is a non-destructive analytical technique that yields detailed information about the chemical structure, crystallinity, and Keep Reading
Blog The Evolution of Optical Coherence Tomography Optical Coherence Tomography (OCT) has come a long way since its development in the 1990’s. With early Keep Reading
Blog Gem 561 1 W: Looking for an efficient, high power yellow laser in a compact form factor? Look no further than the gem 561 1 W – market leading power with an ultra-precise TEM00 Keep Reading
Blog 3 Reasons Why Digital Servos Help Systems Operate Smarter Manufacturing systems are constantly evolving. Learn why manufacturers are turning to digital servos to keep up with Keep Reading
