Allows real-time and adaptive decision-making based on optical signals from the sample. 

This comparator circuit can be applied to any laser scanning or optical detection system to enable close-loop feedback for optical manipulation. It can be used to command lasers via acousto-optic modulators, electro-optic modulators, or lasers with high-speed responses.

Integrates manual selection with adaptive and automatic target selection based on optical signals for optimal flexibility.

This interactive software allows advanced human-machine interactions. It allows users to convert their laser scanning microscope into active opto-control systems with maximum flexibility and precision. 

Stand-alone RPOC and confocal fluorescence microscope

This RPOC system has up to five lasers for signal excitation and opto-control. The response time is up to tens of nanoseconds. This turn-key system is compact and used under ambient light. It has two PMTs and integrated with the comparator circuit and RPOC software. It delivers 300 nm spatial resolution and treatment precision. Also, it can be used as a conventional confocal fluorescence microscope.