Salvador Bará scite author profile

Salvador Bará

5Publications

301Citation Statements Received

54Citation Statements Given

How they've been cited

432

295

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Affiliations

University of Santiago de Compostela, Bhabha Atomic Research Centre, Xunta de Galicia

Publications

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Anthropogenic disruption of the night sky darkness in urban and rural areas

Bará¹

2016

R. Soc. open sci.

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The growing emissions of artificial light to the atmosphere are producing, among other effects, a significant increase of the night sky brightness (NSB) above its expected natural values. A permanent sensor network has been deployed in Galicia (northwest of Iberian peninsula) to monitor the anthropogenic disruption of the night sky darkness in a countrywide area. The network is composed of 14 detectors integrated in automated weather stations of MeteoGalicia, the Galician public meteorological agency. Zenithal NSB readings are taken every minute and the results are openly available in real time for researchers, interested stakeholders and the public at large through a dedicated website. The measurements allow one to assess the extent of the loss of the natural night in urban, periurban, transition and dark rural sites, as well as its daily and monthly time courses. Two metrics are introduced here to characterize the disruption of the night darkness across the year: the significant magnitude (m1/3) and the moonlight modulation factor (γ). The significant magnitude shows that in clear and moonless nights the zenithal night sky in the analysed urban settings is typically 14–23 times brighter than expected from a nominal natural dark sky. This factor lies in the range 7–8 in periurban sites, 1.6–2.5 in transition regions and 0.8–1.6 in rural and mountain dark sky places. The presence of clouds in urban areas strongly enhances the amount of scattered light, easily reaching amplification factors in excess of 25, in comparison with the light scattered in the same places under clear sky conditions. The periodic NSB modulation due to the Moon, still clearly visible in transition and rural places, is barely notable at periurban locations and is practically lost at urban sites.

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Nonparaxial design of generalized axicons

et al. 1992

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Phase plates for wave-aberration compensation in the human eye

et al. 2000

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We present a method for manufacturing phase plates to compensate for the wave aberration in the human eye. The wave aberration of the eye is measured in vivo by a new laser ray-tracing method and then compensated for by a phase plate placed in front of the eye. This plate is made from a gray-level single-mask photosculpture in photoresist. Two experiments were carried out, first with an artificial eye and then with a human eye: 80% compensation for the wave aberration was achieved in both cases.

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Direct transformation of Zernike eye aberration coefficients between scaled, rotated, and/or displaced pupils

et al. 2006

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In eye aberrometry it is often necessary to transform the aberration coefficients in order to express them in a scaled, rotated, and/or displaced pupil. This is usually done by applying to the original coefficients vector a set of matrices accounting for each elementary transformation. We describe an equivalent algebraic approach that allows us to perform this conversion in a single step and in a straightforward way. This approach can be applied to any particular definition, normalization, and ordering of the Zernike polynomials, and can handle a wide range of pupil transformations, including, but not restricted to, anisotropic scalings. It may also be used to transform the aberration coefficients between different polynomial basis sets.

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The Light Sword Optical Element—a New Diffraction Structure with Extended Depth of Focus

Kołodziejczyk

Bará

Jaroszewicz

et al. 1990

Journal of Modern Optics

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Salvador Bará

Anthropogenic disruption of the night sky darkness in urban and rural areas

Nonparaxial design of generalized axicons

Phase plates for wave-aberration compensation in the human eye

Direct transformation of Zernike eye aberration coefficients between scaled, rotated, and/or displaced pupils

The Light Sword Optical Element—a New Diffraction Structure with Extended Depth of Focus

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