Solutions

Microscopy and spectroscopy solutions

Moku delivers a reconfigurable, state-of-the-art test platform for advanced microscopy and spectroscopy research, supporting applications such as stimulated Raman scattering (SRS) microscopy, photonics, and medical imaging. Leverage unmatched flexibility, precision, and real-time analysis to enhance your experimental capabilities and streamline your workflow.

FPGA-based instrumentation deployed in a microscopy and spectroscopy lab

Multi-channel lock-in detection in SRS experiments

Learn new ways to optimize molecular analysis with flexible, software-defined lock-in detection, custom multi-instrument configurations, and stimulated Raman scattering (SRS) techniques.

A test platform you can rely on

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. With Multi-instrument Mode, it’s easy to detect multiple frequencies or harmonics simultaneously without the need for additional equipment.

Enable ultra-sensitive measurements

Moku is engineered with a patented ADC-blending technique that reduces noise and enables ultra-sensitive signal detection, from stimulated Raman scattering (SRS) microscopy to advanced photonics research.

Integrated PID Controller

Use the high-speed Moku PID Controller for efficient closed-loop control. It enables parameter adjustments without interrupting measurements in dynamic experimental environments.

Real-time data logging and signal visualization

Monitor long-term system performance with an integrated four-channel 1.25 GSa/s Oscilloscope, logging data at up to 10 MSa/s through the built-in Data Logger.

Fast, flexible medical imaging with multi-channel testing

Microscopy measurement techniques such as stimulated Raman scattering (SRS) microscopy allow for label-free imaging, enabling disease diagnosis, pharmaceutical and drug transport research, and other materials science applications. The Moku platform allows real-time analysis of low-intensity signals, advancing medical imaging techniques such as pharmaceutical research and disease diagnosis.

Moku Lock-in amplifier interface for microscopy test

Lower noise with boxcar averaging

To measure periodic signals with a low-power or low-duty cycle, it’s easy to use Multi-instrument Mode to deploy tools such as the boxcar averager to improve the signal-to-noise ratio (SNR). Click below for a downloadable quick-start guide.

Implementing a boxcar averager with Moku Cloud Compile

Precise imaging with lock-in detection technology

In the world of microscopy and spectroscopy, achieving accurate results can be challenging when desired signals are obscured by noise. The Moku Lock-in Amplifier significantly enhances your ability to isolate desired signals, achieving 66% lower analog input noise than leading competitors while offering twice the number of channels.

Moku:Pro and iPad control system setup in an optical lab

Compare hardware

Explore Moku hardware options. Compare the instrument specs to choose the right device for your application.

Moku hardwaare platforms side by side: Moku:Go, Moku:Pro, and Moku:Lab

About Liquid Instruments

Liquid Instruments delivers modern, software-defined test and measurement solutions that provide advanced capabilities, a great user experience, and custom programmability for maximum flexibility and performance in a range of applications.