AI Article Synopsis
- When exposed to pulsed infrared light, the eye perceives it as visible light due to a suspected non-linear two-photon absorption process.
- Recent research has reinforced this hypothesis by measuring spectral sensitivity at different pulse repetition rates and developing a theoretical model to explain the results.
- The experimental findings, showing a detection power ratio of 0.52±0.07, closely align with the predicted value for a nonlinear process (0.45), supporting the idea that this two-photon vision phenomenon is non-linear rather than linear.
Article Abstract
When the eye is exposed to pulsed infrared (IR) light, it is perceived as visible of the corresponding half wavelength. Previous studies have reported evidence that this is due to a non-linear two-photon absorption process. We have carried out a study which provides additional support to this nonlinear hypothesis. To this end, we have measured the spectral sensitivity at 2 different pulse repetition rates and have developed a theoretical model to account for the experimental observations. This model predicts a ratio between the minimum powers needed to detect the visual stimulus at the 2 pulse repetition rates employed of 0.45 if the stimulus were detected through a nonlinear effect and 1 if it were caused by a linear effect as in normal vision. The value experimentally found was 0.52 ± 0.07, which supports the hypothesis of a nonlinear origin of the two-photon vision phenomena.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7587254 | PMC |
| http://dx.doi.org/10.1364/BOE.403695 | DOI Listing |
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