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Books on the topic 'Low-dispersion'

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Author: Grafiati

Published: 10 December 2022

Last updated: 29 January 2023

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1

Franchini, M. IUE-ULDA access guide.: International Ultraviolet Explorer--Uniform Low Dispersion Archive. Noordwijk, Netherlands: European Space Agency, 1996.

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2

Brandolini, Andrea. Earnings dispersion, low pay and household poverty in Italy, 1977-1998. [Roma]: Banca d'Italia, 2001.

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3

Dous, Constanze La. Chromospherically active binary stars: International Ultraviolet Explorer - Uniform Low Dispersion Archive. Noordwijk, The Netherlands: European Space Agency, 1994.

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4

Taudt, Christopher. Development and Characterization of a Dispersion-Encoded Method for Low-Coherence Interferometry. Wiesbaden: Springer Fachmedien Wiesbaden, 2022. http://dx.doi.org/10.1007/978-3-658-35926-3.

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5

Lines, I. G. The implications of dispersion in low wind speed conditions for quantified risk assessment. [Sudbury]: HSE Books, 1997.

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6

Lines, I. G. Considerations of the feasibility of developing a simple methodology to assess dispersion in low/zero windspeeds. [Sudbury]: HSE Books, 1998.

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7

Crabol, B. Assessment of the dispersion of fission products in the atmosphere following a reactor accident under meteorological conditions of low wind speeds with or without high temporal and spatial variability in wind speed and direction. Luxembourg: Commission of the European Communities, 1985.

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8

IUE low dispersion microfiche plots. [Chilton, Oxon]: Rutherford Appleton Laboratory, 1985.

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9

W, Wamsteker, ed. IUE-ULDA access guide: International Ultraviolet Explorer-Uniform Low Dispersion Archive. Noordwijk, Netherlands: ESA Publications Division, 1989.

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10

executive, Health and safety. Implications of Dispersion in Low Wind Speed Conditions for Quantified Risk Assessment. Health and Safety Executive (HSE), 1997.

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11

Junghanns, George. Determing the Low-Temperature Potential of the Nelical Nebula by Photon Dispersion. Gauntlet Books, 2000.

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12

Taudt, Christopher. Development and Characterization of a Dispersion-Encoded Method for Low-Coherence Interferometry. Springer Fachmedien Wiesbaden GmbH, 2021.

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13

G, Lines I., Kenyon Y. M, Deaves D. M, Great Britain. Health and Safety Executive., and W.S. Atkins Consultants Ltd., eds. Assessment of the validity of current dense gas dispersion models at low wind speeds. Sudbury: HSE Books, 2000.

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14

executive, Health and safety. Consideration of the Feasibility of Developing a Simple Methodology to Assess Dispersion in Low/Zero Windspeeds. Health and Safety Executive (HSE), 1999.

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15

Cappellaro, Enrico. IUE-ULDA access guide no. 6: International Ultraviolet Explorer-Uniform Low Dispersion Archive : Supernovae (ESA SP). European Space Agency, 1995.

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16

Comprehensive report to Congress, clean coal technology program: Confined zone dispersion, low-NOxflue gas desulfurization demonstration : a project proposed by Bechtel Corporation. Washington, D.C: U.S. Dept. of Energy, Assistant Secretary for Fossil Energy, Office of Clean Coal Technology, 1990.

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17

Macdonald, David W., and Chris Newman. Musteloid sociality: the grass-roots of society. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198759805.003.0006.

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Excluded from the pursuit predator niche by better-adapted early felids and canids, the musteloids exploited other hunting strategies as grasslands proliferated in the Oligocene. Unconstrained by specialised running limbs, lineages evolved to excavate prey (badgers) and enter burrows (polecats). Others took to tree-climbing (martens, procynoids) and even swimming (otters). While some species specialised in rodent hunting (weasels) others became more generalist omnivores. In-turn the dispersion of these food types dictated socio-spatial geometries, allowing insectivorous, piscivorous and frugivorous species to congregate with varying degrees of social cohesion, often unified within subterranean burrows – a basis to group-living distinct from the pack-hunting felids and canids. Induced ovulation and delayed implantation feature in the mating systems of several species, evolved to ensure breeding success amongst low-density, solitary ancestors. Group-living musteloids exhibit degrees of reproductive suppression, allo-parental care and other cooperative behaviours, thus this contrarian superfamily provides unique insights into the basis of carnivore societies.

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18

Tülümen, Erol, and Martin Borggrefe. Monogenic and oligogenic cardiovascular diseases: genetics of arrhythmias—short QT syndrome. Oxford University Press, 2018. http://dx.doi.org/10.1093/med/9780198784906.003.0150.

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Short QT syndrome (SQTS) is a very rare, sporadic or autosomal dominant inherited channelopathy characterized by abnormally short QT intervals on the electrocardiogram and increased propensity to atrial and ventricular tachyarrhythmias and/or sudden cardiac death. Since its recognition as a distinct clinical entity in 2000, significant progress has been made in defining the clinical, molecular, and genetic basis of SQTS. To date, several causative gain-of-function mutations in potassium channel genes and loss-of-function mutations in calcium channel genes have been identified. The physiological consequence of these mutations is an accelerated repolarization, thus abbreviated action potentials and shortened QT interval with an increased inhomogeneity and dispersion of repolarization. Regarding other rare monogenetic arrhythmias, a genetic basis of atrial fibrillation was considered very unlikely until very recently. However, in the last decade the heritability of atrial fibrillation in the general population has been well described in several epidemiological studies. So far, more than 30 genes have been implicated in atrial fibrillation through candidate gene approach studies, and 14 loci were found to be associated with atrial fibrillation through genome-wide association studies. This genetic heterogeneity and the low prevalence of mutations in any single gene restrict the clinical utility of genetic screening in atrial fibrillation.

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19

Yousuff, Hussaini M., Manthey J, and Institute for Computer Applications in Science and Engineering., eds. Low-dissipation and -disperson Runge-Kutta schemes for computational acoustics. Hampton, VA: Institute for Computer Applications in Science and Engineering, NASA Langley Research Center, 1994.

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20

Low-dissipation and -disperson Runge-Kutta schemes for computational acoustics. Hampton, VA: Institute for Computer Applications in Science and Engineering, NASA Langley Research Center, 1994.

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