Single-beam low-frequency loss modulation technique for two-photon absorption measurement

2024-10-15
Kadan, Viktor
Pavlov, Ihor
Dmytruk, Andriy
Blonskyi, Ivan
Pavlova, Tetiana
Serozhkin, Yuriy
Goodarzi, Arian
Bondar, Mykhailo
We present a straightforward and reliable single-beam configuration designed for the assessment of two-photon absorption (2PA) through the utilization of the loss modulation technique. Mechanical rotation of a half-wave plate induces a sinusoidal modulation in the envelope of the probe pulse train. The elimination of spurious signals is achieved by determining the difference of the lock-in amplifier output at the focused and defocused positions of the sample. Our findings, based on measurements with dye solutions and crystalline silicon, demonstrate the feasibility of determining the 2PA coefficient, subject to preliminary calibration of the setup with reference samples. Remarkably, the acquisition of the 2PA signal in silicon at 1030 nm is accomplished with less than 200 pJ energy of the laser pulse, overcoming the challenge posed by concurrent linear absorption. Additionally, a signal of 3PA is revealed despite the presence of 2PA and linear absorption.
Optics Communications
Citation Formats
V. Kadan et al., “Single-beam low-frequency loss modulation technique for two-photon absorption measurement,” Optics Communications, vol. 569, pp. 0–0, 2024, Accessed: 00, 2024. [Online]. Available: https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85196674884&origin=inward.