Brian Vohnsen scite author profile

The photoreceptors of the living human eye are known to exhibit waveguide-characteristic features. This is evidenced by the Stiles-Crawford effect observed for light incident near the pupil rim, and by the directional component of light reflected off the retina in the related optical Stiles-Crawford effect. We describe a model for the coupling of light to/from photoreceptors on the basis of waveguide theory that includes diffraction between the eye pupil and the photoreceptor apertures, and we show that valuable insight can be gained from a Gaussian approximation to the mode field. We apply this knowledge to a detailed study of the relationship between the Stiles-Crawford effect and its optical counterpart.

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Directional sensitivity of the retina: A layered scattering model of outer-segment photoreceptor pigments

Vohnsen

2014

Biomed. Opt. Express

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Photoreceptor outer segments have been modeled as stacked arrays of discs or membrane infoldings containing visual pigments with light-induced dipole moments. Waveguiding has been excluded so fields diffract beyond the physical boundaries of each photoreceptor cell. Optical reciprocity is used to argue for identical radiative and light gathering properties of pigments to model vision. Two models have been introduced: one a macroscopic model that assumes a uniform pigment density across each layer and another microscopic model that includes the spatial location of each pigment molecule within each layer. Both models result in highly similar directionality at the pupil plane which proves to be insensitive to the exact details of the outer-segment packing being predominantly determined by the first and last contributing layers as set by the fraction of bleaching. The versatility of the microscopic model is demonstrated with an array of examples that includes the Stiles-Crawford effect, visibility of a focused beam of light and the role of defocus.

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Transfer functions in collection scanning near-field optical microscopy

Bozhevolnyi¹,

Vohnsen

Bozhevolnaya

1999

Optics Communications

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Photoreceptor waveguides and effective retinal image quality

Vohnsen

2007

J. Opt. Soc. Am. A

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Individual photoreceptor waveguiding suggests that the entire retina can be considered as a composite fiber-optic element relating a retinal image to a corresponding waveguided image. In such a scheme, a visual sensation is produced only when the latter interacts with the pigments of the outer photoreceptor segments. Here the possible consequences of photoreceptor waveguiding on vision are studied with important implications for the pupil-apodization method commonly used to incorporate directional effects of the retina. In the absence of aberrations, it is found that the two approaches give identical predictions for an effective retinal image only when the pupil apodization is chosen twice as narrow as suggested by the traditional Stiles-Crawford effect. In addition, phase variations in the retinal field due to ocular aberrations can delicately alter a waveguided image, and this may provide plausible justification for an improved visual sensation as compared with what should be expected on the grounds of a retinal image only.

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Near-Field Optical Holography

Bozhevolnyi

Vohnsen

1996

Phys. Rev. Lett.

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Near-field optical holography, i.e., a technique that allows one to record and reconstruct not only far-but also near-field components of optical fields, is conceptually formulated. A near-field hologram can be recorded with a reference wave, which is totally internally reflected by a surface with quasi-two-dimensional objects on it, and reconstructed with methods of near-field optical microscopy. Subwavelength resolution of the proposed technique is demonstrated by using both numerical simulations and experimental observations. [S0031-9007(96)

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Brian Vohnsen

Guided light and diffraction model of human-eye photoreceptors

Directional sensitivity of the retina: A layered scattering model of outer-segment photoreceptor pigments

Transfer functions in collection scanning near-field optical microscopy

Photoreceptor waveguides and effective retinal image quality

Near-Field Optical Holography

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