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Digitale Medien

Absorption of intermediate-energy photons by multi-particle clusters in ^6Li

Ryckbosch, D. ; Van Hoorebeke, L. ; Van de Vyver, R. ; [weitere]

Amsterdam : Elsevier

Nuclear Physics, Section A 568 (1994), S. 52-72

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ISSN: 0375-9474

Schlagwort(e): Nuclear reactions

Quelle: Elsevier Journal Backfiles on ScienceDirect 1907 - 2002

Thema: Physik

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1016/0375-9474(94)90003-5

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Digitale Medien

The (γ, p) reaction at E"γ ~60 MeV

Ireland, D.G. ; Branford, D. ; Davinson, T. ; [weitere]

Amsterdam : Elsevier

Nuclear Physics, Section A 554 (1993), S. 173-188

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ISSN: 0375-9474

Schlagwort(e): Nuclear reactions

Quelle: Elsevier Journal Backfiles on ScienceDirect 1907 - 2002

Thema: Physik

Materialart: Digitale Medien

URL: http://linkinghub.elsevier.com/retrieve/pii/0375-9474(93)90337-W

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Digitale Medien

The dorsal eye of the dragonfly Sympetrum: specializations for prey detection against the blue sky (1995)

Labhart, T. ; Nilsson, D.-E.

Springer

Journal of comparative physiology 176 (1995), S. 437-453

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ISSN: 1432-1351

Schlagwort(e): Compound eye ; Dragonfly ; Electrophysiology ; Optics ; Photochemistry

Quelle: Springer Online Journal Archives 1860-2000

Thema: Biologie , Medizin

Notizen: Abstract Dragonflies of the genus Sympetrum have compound eyes conspicuously divided into dorsal and ventral regions. Using anatomical, optical, electrophysiological, in-vivo photochemical and microspectrophotometrical methods, we have investigated the design and physiology of the dorsal part which is characterized by a pale yellow-orange screening pigment and extremely large facets. The upper part of the yellow dorsal region is a pronounced fovea with interommatidial angles approaching 0.3°, contrasting to the much larger values of 1.5°–2° in the rest of the eye. The dorsal eye part is exclusively sensitive to short wavelengths (below 520 nm). It contains predominantly blue-receptors with a sensitivity maximum at 420 nm, and a smaller amount of UV-receptors. The metarhodopsin of the blue-receptors absorbs maximally at 535 nm. The yellow screening pigment transmits longwavelength light (cut-on 580 nm), which increases the conversion rate from metarhodopsin to rhodopsin (see Fig. 11a). We demonstrate that because of the yellow pigment screen nearly all of the photopigment is in the rhodopsin state under natural conditions, thus maximizing sensitivity. Theoretical considerations show that the extremely long rhabdoms (1.1 mm) in the dorsal fovea are motivated for absorption reasons alone. A surprising consequence of the long rhabdoms is that the sensitivity gain, caused by pumping photopigment into the rhodopsin state, is small. To explain this puzzling fact we present arguments for a mechanism producing a gradient of rhodopsin concentration along the rhabdom, which would minimize saturation of transduction units, and hence improve the signal-to-noise ratio at high intensities. The latter is of special importance for the short integration time and high contrast sensitivity these animals need for spotting small prey at long distances.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1007/BF00196410

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Digitale Medien

Did neural pooling for night vision lead to the evolution of neural superposition eyes? (1994)

Nilsson, D. -E. ; Ro, A. -I.

Springer

Journal of comparative physiology 175 (1994), S. 289-302

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ISSN: 1432-1351

Schlagwort(e): Compound eye ; Open rhabdom ; Neural superposition ; Visual ecology ; Evolution

Quelle: Springer Online Journal Archives 1860-2000

Thema: Biologie , Medizin

Notizen: Abstract Observations of the infrared deep pseudopupil, optical determinations of the corneal nodal point, and histological methods were used to relate the visual fields of individual rhabdomeres to the array of ommatidial optical axes in four insects with open rhabdoms: the tenebrionid beetle Zophobas morio, the earwig Forficula auricularia, the crane fly Tipula pruinosa, and the backswimmer Notonecta glauca. The open rhabdoms of all four species have a central pair of rhabdomeres surrounded by six peripheral rhabdomeres. At night, a distal pigment aperture is fully open and the rhabdom receives light over an angle approximately six times the interommatidial angle. Different rhabdomeres within the same ommatidium do not share the same visual axis, and the visual fields of the peripheral rhabdomeres overlap the optical axes of several near-by ommatidia. During the day, the pigment aperture is considerably smaller, and all rhabdomeres share the same visual field of about two interommatidial angles, or less, depending on the degree of light adaptation. The pigment aperture serves two functions: (1) it allows the circadian rhythm to switch between the night and day sampling patterns, and (2) it works as a light driven pupil during the day. Theoretical considerations suggest that, in the night eye, the peripheral retinula cells are involved in neural pooling in the lamina, with asymmetric pooling fields matching the visual fields of the rhabdomeres. Such a system provides high sensitivity for nocturnal vision, and the open rhabdom has the potential of feeding information into parallel spatial channels with different tradeoffs between resolution and sensitivity. Modification of this operational principle to suit a strictly diurnal life, makes the contractile pigment aperture superfluous, and decreasing angular sensitivities together with decreasing pooling fields lead to a neural superposition eye.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1007/BF00192988

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Digitale Medien

Intensity and polarization of the eyeshine in butterflies (1989)

Nilsson, D. -E. ; Howard, J.

Springer

Journal of comparative physiology 166 (1989), S. 51-56

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ISSN: 1432-1351

Schlagwort(e): Compound eye ; Optics ; Insects

Quelle: Springer Online Journal Archives 1860-2000

Thema: Biologie , Medizin

Notizen: Summary The compound eyes of most diurnal butterflies have a reflecting tapetum below the retina. Light that enters the eye is guided down the rhabdom, reflected by the tapetum, and then guided back up the rhabdom. The light that is not absorbed by the rhabdom is reemitted and gives rise to an eyeshine. We have measured the fraction of the incident light that is re-emitted, and also the degree to which this light retains its original polarization. The following conclusions are drawn: 1. Even at the wavelength where the eyeshine is most intense, only a few percent of the incident photons are re-emitted. 2. The tapetum acts as a plane mirror that preserves polarization. 3. The light that passes through the rhabdom in second-order waveguide modes is depolarized to a greater extent than the light contained in first-order modes. The depolarization is expected to decrease only slightly the polarization sensitivity of the retina. 4. Theoretical modelling of the waveguide properties of the rhabdom provided a way of using depolarization measurements for estimating the refractive index of the rhabdom. The measured amount of depolarization is consistent with the dispersion of phase velocities of different second-order modes propagating in a rhabdom of refractive index 1.363.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1007/BF00190209

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Digitale Medien

Fine structure and optical properties of an ostracode (Crustacea) nauplius eye (1981)

Andersson, A. ; Nilsson, D. -E.

Springer

Protoplasma 107 (1981), S. 361-374

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ISSN: 1615-6102

Schlagwort(e): Nauplius eye ; Optics ; Ostracoda

Quelle: Springer Online Journal Archives 1860-2000

Thema: Biologie

Notizen: Summary InNotodromas monachus, the three cups of the nauplius eye are formed by four pigment cells. The insides of the cups are lined with tapetal cells, which produce several layers of reflecting crystals. The reflecting crystals form a concave mirror in each cup upon which the retinular cells rest. The two-celled rhabdoms are few and perpendicular to the tapetal layer. The axons from the tripartite eye leave the retinular cells distally in three separate groups. The eye is thus of the inverse type. Large lens cells, with a low refractive index, are present in the open part of each cup. Distal to the lens cells, highly refractive lenses are formed in the cuticle. These lenses serve to decrease the effective curvature of the mirrors, thus enabling the reflectors to produce a focused image on the retina. The ventral cup differs by the lack of a cuticular lens and has degenerated-appearing cellular elements. The investigated nauplius eye is the only one known with both a mirror and a highly refractive lens in the dioptric apparatus.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1007/BF01276836

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