Applications

Microscopy and spectroscopy

Extract and analyze weak signals often obscured by noise in applications like stimulated Raman scattering (SRS) research.

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Extract weak signals

In many microscopy and spectroscopy applications, signals can be very weak, complicating optical imaging and data extraction. Use the Moku Lock-in Amplifier to efficiently extract and analyze weak signals obscured by noise. By deploying multiple Lock-in Amplifiers simultaneously, you can detect multiple frequencies or harmonics without additional equipment.

Simplifying two-color stimulated Raman scattering (SRS) microscopy

“The user interface allows for intuitive and powerful controls for extracting the low-intensity SRS signal and Moku:Pro’s Multi-instrument Mode allows for complex imaging experiments on a compact system.”

Learn how University of Washington researchers used Moku:Pro to perform a variety of experiments and extract the low-intensity SRS signals with one device.

Moku Lock-in Amplifier in an optics lab

Microscopy and spectroscopy resources

Explore user case studies, comprehensive application notes, and detailed configuration guides to accelerate microscopy and spectroscopy experiments.

FAQ

Yes. FTUS is a technique that efficiently dissects intricate signals into their frequency components by employing an interference approach with a reference signal. With a Lock-in Amplifier and custom signal processing, you can implement flexible and compact FTUS experiment setups. Read the case study.

By implementing a Lock-in Amplifier as part of a phase-locked loop (PLL), researchers used Moku:Pro to implement novel NMR techniques. Read the case study.

Yes. This is an excellent way to improve results when measuring low-duty-cycle signals. You can deploy a custom, open-source boxcar averager on Moku devices.

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