Applications

Microscopy and spectroscopy

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

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.

Watch the webinar

Get the boxcar averager guide

Read the case study

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.

Learn more

Microscopy and spectroscopy resources

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

Moku:Lab and Moku:Pro setup with a lock-in amplifier interface on the iPad to conduct quadrant photodiode sensing (QPD).

Improving SNR measurement with a boxcar averager

Implement boxcar averaging for enhanced data quality and SNR with Moku Cloud Compile, and learn how to get started fast with Moku:Pro

Stimulated Raman scattering with a lock-in amplifier

Understand stimulated Raman scattering (SRS) and how to integrate a SRS lock-in amplifier for enhanced spectroscopy experiments.

Figure 1: Moku:Pro Multi-instrument Mode configuration, with four instruments deployed simultaneously.

Advancing Fourier transform ultrafast spectroscopy with Moku:Pro

Learn how researchers at the Chinese Academy of Sciences are using the Moku:Pro Lock-in Amplifier and Moku Cloud Compile to fast-track particle analysis

Download our on-demand webinar on modern phase detection

A new phase for test: Essential strategies for modern phase detection

Block diagram of the prototype laser spectroscopy measurement system.

Advancing the search for dark matter with Moku:Lab

University of Alberta researchers use the Moku:Lab Lock-in Amplifier to aid in attempts at dark matter detection

Stimulated Raman scattering microscopy

Using the Moku:Lab Lock-in Amplifier for stimulated Raman scattering microscopy

FAQ

Can I perform Fourier transform ultrafast spectroscopy (FTUS) with Moku?

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.

How can I use a Lock-in Amplifier for nuclear magnetic resonance (NMR) imaging?

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.

Can I use a boxcar averager to improve my signal-to-noise ratio (SNR) in microscopy experiments?

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.

Need help or have questions?

Speak with an engineer Explore hardware