Efficient multiphoton microscopy with picosecond laser pulses

Multiphoton microscopes employ femtosecond fiber lasers as excitation sources, providing a smaller footprint and easier maintenance than solid-state lasers while ensuring ultrashort pulse duration and high peak power. However, such short pulses are significantly more susceptible to broadening in a microscope's highly dispersive optical elements and require careful dispersion management, otherwise decreasing excitation efficiency. Here, we show that efficient excitation is possible using picosecond pulses with a reduced repetition rate. We have developed a high-energy Yb:fiber laser with an integrated pulse picker unit and compared its performance in multiphoton microscopy for two different settings: 205 fs pulse duration at 15 MHz, and 10 ps at 0.3 MHz. Ensuring the same duty cycle and average power for both pulse trains, we have shown that picosecond pulses with a reduced repetition frequency can produce significantly higher pixel intensities. These findings proved that the temporal compression of fiber lasers is not always efficient, and it can be omitted by using a smaller and easier-to-use all-fiber setup.