Innovations

Our expertise in opto-mechanical design and knowledge of optical coating capabilities can lead to design concepts that add new capability.Innovation is key to future technological advances and FASORtronics maintains the required focus and drive to deliver. We use the latest in 3D visualization design together with modeling analysis tools to bring advances to our laser technology specialties. FASORtronics can perform at the state-of-the-art in:

• capability & performance;
• reliability & maintenance features, and;
• user interfaces.

We are diverse in our capabilities and can also advance concepts in our sub-specialties; such as in optomechanics, optoelectronics, and instrumentation.

The Wavelength Controller instrumentation module shown with a transparent top cover. The front screen is a touch-sensitive panel for an auxiliary control capability to a 589nm FASOR guidestar laser system.FASORtronics has extensive experience in the design and construction of solidstate single frequency lasers; both in the regimes of high power and for seed sources. We are familiar with both “NPRO” and “micro-chip” designs, and with amplification to high power in ytterbium and neodymium fiber. Amplification to high power in Nd:YAG can be done either in a MOPA (Master-Oscillator, Power Amplifier) architecture, or, with greater efficiency, using an injection-locked design. Our familiarity with all of these approaches, and with the electronic controls needed to stabilize these systems, makes us especially suited for innovations in these areas.

We specialize in power scaling solid-state lasers via multi-engine designs. Here, a four engine resonator is used to produce a 1319nm laser in excess of 45 watts.From multi-engine resonator designs to wavelength control instrumentation to neodymium fiber lasers are examples of the technology areas where the founders of FASORtronics have contributed to the state-of-the-art.

FASORtronics is ready to stand up and deliver innovative concepts for your projects.