Characterization of bulk optical properties of pear tissues in the 500 to 1000 nm range as input for simulation-based optimization of laser spectroscopy in diffuse transmittance mode

Insight in the transmission of light through intact fruit is important to optimize and interpret the signals acquired with spectroscopy methods such as tunable diode laser absorption spectroscopy (TDLAS). To this end, we quantified the bulk optical properties (BOP) of skin, outer cortex, inner cortex, and core tissue of three pear (Pyrus communis) cultivars (Thimo, Cepuna, and Conference) using double integrating spheres measurements in combination with the inverse adding doubling method. Similar trends and values were observed for the bulk optical properties of the three cultivars. A clear chlorophyll-a absorption feature was present in the bulk ab-sorption coefficient (mu a) at 690 nm for the skin samples. At 761 nm, the bulk scattering coefficient (mu s) decreased from the skin towards the core region, for example from 256 +/- 34 cm- 1 to 146 +/- 22 cm- 1 for Conference pears. The observed anisotropy factor (g) of the skin was lower than these of the other tissue layers (0.87 +/- 0.026 vs. 0.94 +/- 0.08 for Conference). Next, Monte Carlo voxelized media (MCVM) simulations were performed based on these BOP values and validated against measurements with a TDLAS setup for gas in scattering media absorption spectroscopy (GASMAS) at 761 nm. In these experiments, the sample thickness was reduced by sequentially slicing the pear from the skin towards the center. Light transmittance through an intact pear at the height of the core region was found to be very low (1.9 x 10-4 +/- 8.5 x 10-5%) and exponentially increased around 100-fold when the sample thickness decreased from 64 mm to 24 mm. The simulated transmittance profiles based on the measured BOP values at 761 nm followed the same trend as the measured GASMAS transmittance as a function of the fruit thickness. This shows that simulations based on these measured BOP values can be used to optimize the measurement configuration for O2 monitoring in intact pear fruit with GASMAS.

Automated summary

This study analyzed the optical properties of different parts of three pear cultivars and the light transmittance of intact pears. The findings are important for optimizing fruit monitoring using spectroscopy methods.