Proceedings Article | 23 February 2010
KEYWORDS: Visualization, Light emitting diodes, Light sources, Visual optics, Lamps, Standards development, Eye, Laser irradiation, Laser safety, Safety
Indirect effects arising from bright artificial optical sources like temporary blinding might result in serious incidents or
even accidents due to accompanying alteration of visual functions like visual acuity, contrast sensitivity and color
discrimination.
In order to determine the degree and duration of impairment resulting from glare, dazzle, flash-blindness and
afterimages, caused by a beam from a laser or lamp product, particularly under low ambient light conditions, an
investigation has been performed with the goal to improve the current knowledge as far as especially recovery duration
of visual acuity is concerned.
For this two different test set-ups were designed and engineered in order to be able to determine the time duration after
which visual acuity returns to its previous value after temporary blinding with a laser or an LED and in addition to search
for functional relations as far as wavelength, optical power and exposure duration are concerned.
Instead of normal visual acuity measurement, which is the standard test done by eye care professionals, and which has
been applied in order to determine the recovery time after irradiation with a high brightness LED (HB-LED) with the aid
of a modified commercially available binoptometer with Landolt-C rings as optotypes, a special reading test on a
computer monitor was developed for the case of laser irradiation.
Two different laser were applied, one with a wavelength of 632.8 nm and the other with 532 nm. Red, green, royal blue
and white HB-LEDs were used as stimulating light sources. The maximum applied optical power in a 7-mm aperture,
which is equivalent to the pupil diameter of a dark adapted eye, was 0.783 mW (laser) and 3 mW (LED). The exposure
durations were chosen as 0.25 s, 0.5 s, 1 s, 5 s, and 20 s in the case of laser irradiation and 0.25 s, 1 s, 5 s, and 10 s for
LEDs, respecting maximum permissible exposure (MPE) and/or limit exposure levels (ELVs) in all exposure situations.
The visual acuity recovery time tVA has been found to obey the dose relationship: tVA /s ≈ 3.7•ln(energy/μJ) - 16.2 in the
case of a green HB-LED in the power range 0.12 mW to 1.5 mW and for exposure durations between 1 s and 8 s. Further
investigations were performed with other LED colors especially as far as threshold values for temporary blinding are
concerned. The afterimage duration tafterimage,fv produced by a red laser beam was determined to be: tafterimage,fv/s ≈
50.6•ln[(P•texp)/μJ] - 13.4, for laser output powers P between 10 μW and 30 μW with exposure durations texp from 0.25 s
up to 10 s, when the beam hits the fovea. Additional results have been achieved with a green laser at a wavelength of
532 nm and compared with the respective values at 632.8 nm.
The results of the research project suggest classifying light sources like laser and LEDs into so-called blinding groups. In
total 3 different groups which reflect the obtained results and are proposed in order to fulfil the requirements of special
classification and might be regarded as an appropriate assistance to perform a risk analysis.
