The Denver Universal Microspectroradiometer (DUM)

David, Gavriel; Galbraith, W.

doi:10.1111/j.1365-2818.1975.tb03891.x

Cited by 11 publications

(6 citation statements)

References 30 publications

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“…24 David Denver argues that four interconnected social factors are associated with low turnout: being young (the most important one), being unmarried, living in privately rented accommodation, and being residentially mobile. 25 Higher levels of non-voting by these groups can be explained in terms of isolation from personal and community networks, which are characteristic of stable communities that encourage conformity or the norm of voting. 26 Varying political participation rates can be understood in terms of cost and benefit, 27 hence some young people might not see the point (or the value) of making the effort to vote.…”

Section: Turning Out To Votementioning

confidence: 99%

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Trying to Turn up the Turnout: Youth Wings and the Youth Vote in the 2015 General Election

Pickard¹

2015

rfcb

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Section: Turning Out To Votementioning

confidence: 99%

“…42 Membership of political parties has decreased considerably in Britain over the past two generations. 43 In 2015, a tiny proportion of the population is a member of a political party:…”

Section: Supporting a Political Partymentioning

confidence: 99%

Trying to Turn up the Turnout: Youth Wings and the Youth Vote in the 2015 General Election

Pickard¹

2015

rfcb

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“…Spectra were obtained by photon counting, using the Denver Universal Microspectroradiometer (DUM) (David & Galbraith, 1975;Galbraith et al, 1975). A stabilized 450 W xenon arc was used, and further stabilization was introduced by diverting a small fraction of the light beam near the source to a 'Monitor' photon counter, attenuating to 1 million photons s-l, and using the resulting signal as the 1 MHz external clock signal to the photon counting electronics (David & Galbraith, 1975).…”

Section: Spectral Measurementsmentioning

confidence: 99%

“…The monochromators are driven in wavelength by stepping motors under computer control. They are calibrated directly from the emission lines of a mercury arc, both in order to determine the relationship between stepping motor drive and wavelength transmitted, as described in David & Galbraith (1975), and also to zero the drive during the daily setting up procedure.…”

Section: Spectral Measurementsmentioning

confidence: 99%

Microspectrophotometric studies of Romanowsky stained blood cells

Marshall

Galbraith

Navarro

et al. 1981

Journal of Microscopy

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SUMMARY This paper describes a comparison of the performance of two standardized Romanowsky blood stains, namely those of Marshall et al. and Wittekind et al., both containing azure B and eosin alone. Stain performance is assessed objectively by the use of three complementary techniques, all based on the visible absorbance spectra of stained cellular substrates. The first of these techniques is a simple comparison of the shapes and heights of the absorbance spectra. The second technique uses the CIE Colorimetric System, and thus permits the quantitation of colour in a manner that agrees with human observation. CIE co‐ordinates (chromaticity points, luminance) are calculated directly from absorbance spectra. The third technique is that of spectral subtraction, which yields a set of factors which describe the quantities of component dyes which are bound by the object. This technique, unlike the other two, requires a priori knowledge of the dyes used in the stains, and their spectra when bound to cellular substrates. Although the differences between the two methods are subtle, and hard for the subjective observer to define, the objective methods described here do show statistically significant differences. Wittekind's stain produces less intense staining, except for lymphocyte and monocyte cytoplasms. To the human eye, the differential coloration of these two substrates is more pronounced, but the difference between all nuclei and cytoplasms is less marked. The major difference in the uptake of dye components is in the small quantities of eosin dimer that are bound in this technique.

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“…A new development in reflectance measurement may result from research into radiometric systems~ David and Galbraith (1975) have described the design of the Denver Universal Micrqspectroradiometer (DUM) which uses direct photoelectron counting for precise optical measurements on biological materials. As noted by these authors, advantages of photon counting include the precision _resulting from a digitized signal, and minimization of errors attributable to the analoq components of the system.…”

Section: -mentioning

confidence: 99%

Measurement of reflectance of coal macerals: its automation and significance

Davis

1978

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One of the prime objectives of The Penn$ylvania State University's DOE program is the characterization of 1,300 samples of U.S. coals. Reflectance determination plays a major role in meeting this objective, because it is used as an accurate rank index both to select coals for testing and to investigate property-behavior interrelationships using the Penn State/DOE Coal Data Base. The reflectances of coal macerals are relate•d to their refractive and absor•ptive indices by the Beer equation; the refractive index of the medium and the wavelength of • 1 ight need to be specified. Determinations usually are made in immersion oil"at 546 nm. The properties of vitrinite make it the most suitable maceral for these measurements, but the variety of vitrinite selected may depend upon the intended application. Vitrinite reflectance is considered to be dependent upon the degree of aromatization of its structural units. Although some of the earlier investigators believed that the reflectnnr.e of coals increased in a discontinuous, stepped manner as their rank increased, the bulk of assembled data suggests that the change is continuous. However, some recent results indicate that there may be more than one coalification track for coals with different geological histories, resulting in displacement from the general trend. Several techniques have been employed to determine the optical properties of coal constituents. The usual comparative method involves the use of a microscope cope photometer to compare the intensity of light reflected by particles \~ithin a-polished pellet of coal td that of a glass or synthetic mineral standard. Because coal 1s anisotropic it is common to measure either maximum reflectance in polarized light or r~ndom reflectance in non-polarized light. Various equipment modifications and accessories have been used to improve the ease of measuring maximum reflectance. i i Reflectograms produced by fully automated refJectance microscopy (ARM or Rapid Scan) can be interpreted to obtain measurements of vitrinite maximum reflectance and maceral composition. Earlier attempts had been limited severely by the technology available, but current work at The Pennsylvania State University has the benefit of a modern minicomputer facility. The very rapid data acquisition_ rate achievable with a minicomputer makes it an excellent tool to couple with a microscope photometer. The difference in reflectance between the organic components of coal and pyrite enables pyrite chordsize distributions to be measured by summing tonsecutive readings on pyrite during continuous scanning. The system gives reproducible results, and, because it is capable of simultaneously quantifying rank, petrography, and pyrite size and amount, it holds promise as a means of coal quality control. Further work, aimed at gaining resolution from the ~se of a pulsed step scanning stage,is in progress. Vitrinite reflectance provides a rapid, accurate measurement of coal rank _requiring only a small amount of material. Consequently several systems of cla•ssifyin...

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The Denver Universal Microspectroradiometer (DUM)

Cited by 11 publications

References 30 publications

Trying to Turn up the Turnout: Youth Wings and the Youth Vote in the 2015 General Election

Trying to Turn up the Turnout: Youth Wings and the Youth Vote in the 2015 General Election

Microspectrophotometric studies of Romanowsky stained blood cells

Measurement of reflectance of coal macerals: its automation and significance

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