1 July 2004 Effect of light coherence on depth of focus in head-mounted retinal projection displays
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Optical Engineering, 43(7), (2004). doi:10.1117/1.1748209
Abstract
We discuss the impact of spatial coherence on the defocusing properties of a retinal projection display. The paper demonstrates that there is an optimum degree of spatial coherence that significantly increases the depth of focus as compared with a fully incoherent or a fully coherent illumination. To this end, a theoretical analysis of the effect of light coherence on image contrast is presented and the influence of coherence effects on image quality is discussed. Measurements of both the contrast function (CF) and the text readability when defocusing are presented using a bench model of the display system. The text readability is evaluated using a combination of objective image quality criteria and human experiments. The results reveal that for reading text targets the best depth of focus can be achieved not by fully coherent illumination, but by partially coherent light of a spatial coherence level σ between about 0.35 and 0.5. Further, it is shown that the optimum σ level depends slightly on the targeted text size.
Marc von Waldkirch, Paul Lukowicz, Gerhard Tröster, "Effect of light coherence on depth of focus in head-mounted retinal projection displays," Optical Engineering 43(7), (1 July 2004). http://dx.doi.org/10.1117/1.1748209
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KEYWORDS
Image quality

LCDs

Eye

Spatial coherence

Coherence (optics)

Head-mounted displays

Spatial frequencies

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