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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
11

Photospheric parameters of early-type stars

Stewart, Gordon C. January 1984 (has links)
The development of an interactive data reduction and analysis system for astronomical spectra written in the FORTH computing language and operated on the Nova 820 minicomputer at the University Observatory, St. Andrews is discussed. Spectra of a number of B stars, many of which were obtained by the author at the South African Astronomical Observatory, were measured and reduced using this system. Equivalent widths of metal absorption lines are used to deduce the stars' fundamental photospheric parameters and abundances by comparison with the predictions of both non-LTE and line-blanketed LTE models. It is shown that effective temperatures derived with the line-blanketed LTE models are in good agreement with those found by other authors for near main sequence B stars using measurements of the integrated flux of the stars. Unblanketed non-LTE models give effective temperatures which are systematically high by approximately 7%, similar to the difference between blanketed and unblanketed LTE models. The major differences between the predictions for absorption lines using LTE and non-LTE models are due to the different level populations predicted and not to the different photospheric structures. The use of non-LTE models is found to reduce the microturbulence required to bring element abundances derived from strong lines into agreement with those found for weak lines but not to remove the need for the inclusion of microturbulence in the solutions for most B stars. An investigation of the suitability of the analysis of high resolution Michelson interferometry using Fourier decomposition techniques as a means of determining the broadening mechanisms and velocity fields in the photospheres of early A stars is made.
12

STAR FORMATION IN NGC 7538: MULTI-WAVELENGTH OBSERVATIONS AND ISSUES.

CAMPBELL, BELVA GENEVA STROUD. January 1984 (has links)
New observations of the star formation region NGC 7538 are presented. Energetic outflows are commonly associated with regions of active star formation, despite the fact that the star formation process itself must be predominantly one of infall. This work shows how multi-wavelength observations can be used to study such phenomena on a variety of scales, in an attempt to infer their connection with star formation processes. Included are near-infrared spectroscopy of IRS 2; carbon monoxide J = 1-0 emission line mapping of the central regions of the NGC 7538 molecular cloud; and high spatial resolution maps of IRS 1 at 5 and 15 GHz. Other recent observational data are also considered, including far-infrared continua mapping, maser sources, and spectroscopy of numerous atomic and molecular species. A very large (r ≥ 1.5 pc) and massive (m ≥ 100 solar masses) distribution of high velocity (ΔV(FWHM) ≃ 35 - 40 km s⁻¹) molecular gas is identified in NGC 7538. The correspondence of far-infrared emission with the extent of the high velocity gas, along with the near-equality between the observed momentum flux of the gas and that which is available for radiation pressure L(*) /c (IRS 1-3) leads to the proposal of an in situ mechanism for radiative acceleration of the gas. This mechanism for radiative acceleration of the gas. This mechanism operates in cases where the optical depth of dust is insufficient to permit the "snowplow" outflow effect from strong radiation pressure. On the 1/2 - 1 pc minimum scale of these molecular observations, no obvious bipolarity or collimation is detected, consistent with the in situ mechanism. The highly luminous infrared source IRS 1 is identified as the probable source of this high velocity phenomenon. It is the most luminous source of the three (IRS 1-3) upon which the high velocity gas distribution is centered. The presence on a scale of 100 - 100 AU of a high density ridge perpendicular to a collimated distribution of ionized gas is strongly indicated in both mid-infrared and radio emission, and by anomalous optical and infrared extinctions. There is thus a startling discontinuity between collimation of gas on this scale and the lack of it observed at the arcminute scale of the molecular observations.
13

Disks and dissociation regions: the interaction of young stellar objects with their environments

Allers, Katelyn Natalie 28 August 2008 (has links)
Not available / text
14

STUDIES OF ABSORPTION LINES IN THE SPECTRA OF QUASI-STELLAR OBJECTS

Peterson, Bradley Michael January 1978 (has links)
No description available.
15

MICROTURBULENCE AND ABUNDANCE ANOMALIES IN CLUSTER METALLIC LINE A STARS

Smith, Myron Arthur, 1944- January 1971 (has links)
No description available.
16

CARBON-MONOXIDE ABSORPTION IN K AND M GIANTS AND THE CARBON-12/CARBON-13 ABUNDANCE RATIO

Bailey, Wayne Lewis, 1942- January 1971 (has links)
No description available.
17

THE EFFECT OF LINE EMISSION UPON THE B-V COLORS OF T TAURI OBJECTS

Aveni, Anthony F. January 1965 (has links)
No description available.
18

A SPECTROSCOPIC STUDY OF THE STELLAR CONTENT OF ELLIPTICAL GALAXIES

Moore, Elliott Paul, 1936- January 1968 (has links)
No description available.
19

Observation and interpretation of the Cygnus X-1 system

Ninkov, Zoran January 1985 (has links)
The results of a long term monitoring program on the massive X-ray binary Cygnus X-1, whose constituents are believed to consist of a normal 0 star primary and a black hole companion, are presented. Spectra of this system were collected between 1980 and 1984 using a Reticon detector. The resulting absorption line radial velocity (RV) curve is characteristic of a single line spectroscopic binary. These velocities were combined with those available in the literature to determine an orbital period of 5.59977 ± 0.00001 days. A P/P ≃ 10⁻⁵ day⁻¹ was found from analysis of all available velocity measures. This change in the period is larger than that expected as a result of mass loss from the primary or from- models of the system in which large mass transfer rates occur between the components. A fit of the orbital motion of the primary to the RV curve gives a K = 75.0 ± 1 km/s and no significant eccentricity. The vsini of the primary was found, using the fourier transform technique, to be 94.3 km/sec. This is substantially smaller than the literature value of vsini = 140 km/sec. The value of the K and vsini allow the ratio mp/mx to be determined as ≃ 2.0 . The equivalent width of Hƴ allows the absolute magnitude of the primary to be estimated at -6.5 ± 0.2 . A comparison of the spectrum of the primary to those of an array of standards allows the spectral type to be given as between 09.5 and 09.7 I . This spectral type is consistent that the primary is a normal star of mass ≃ 20 M⊙. The mass of the secondary is therefore 10 ± 3 Mʘ. Measurement of the interstellar lines to obtain an independent E(B-V) reveals that the interstellar line strength per unit E(B-V) is lower than in any other direction in the sky. Stars for which velocity-excitation slopes and mass loss estimates, from UV line profile modeling and/or radio free-free emission measures, are available in the literature were collated. An empirical fit to this material allowed the mass loss rate for HDE 226868 (the primary of Cygnus X-1) to be estimated at 5.7 ± 2 x 10⁻⁶ M/year. The He II λ4686 and Hɑ lines are found in emission. After removal of the contribution to the line profile from the primary the radial velocity curve of the residual He II λ4686 line is found to have small scatter from a smooth fit ( ± 10 km/sec ) with no significant eccentricity. No sizeable variation in the K amplitude at different epochs was found contrary to a previous investigation and the origin of the emission is thus apparently fixed and stable. A phase lag of 130° is measured between the absorption and emission velocity curves and thus the simple interpretation of the emmision originating near the secondary can not be correct. The He II emission equivalent width, corrected for the underlying primary absorption, shows strong modulation (30%) over the 5.6 day orbital period. This variation is probably the result of the profile of the primary varying with which face of the star is directed towards the observer. During two separate observing sessions in 1982 the He II equivalent widths were found to be 40% and 15% larger than the mean of all other observations while still showing the same variation with orbital phase. Such a change has been seen once before and may be associated with transitions to the X-ray high state. The Hƴ and Hβ lines show a 20% variation on the 294 day X-ray period in the sense of largest equvalent widths at X-ray minimum ( 0 phase ). The Balmer lines are a composite of an absorption component from the primary and a weak emission component. This is best explained by variations in the outflow from the star, which is the source of both the emission component and the X-ray flux via accretion. Such variations may be the result of pulsation of the primary. The Hɑ line profile has been decomposed into three components; the absorption component from the primary, emission from a shell with an inner radius 1.4 times that of the primary, arid a component with properties similar to the He II λ4686 line. The great width of the Hɑ line, previously explained as being the result of rotation of the disc, is instead shown to be the result of superposition of these components. The origin of the He II λ4686 emission is explained by assuming that a stellar wind enhanced in the direction of the secondary is completely ionized within a volume surrounding the secondary. The He II between the edge of this volume and the surface of the primary is enhanced as a result of X-ray heating and ionization. Model profiles appear in reasonable agreement with high dispersion spectra. The obvious explanation for the orbital variation in the He II line is that X-ray heating of the side of the primary facing the secondary produces a change in the effective temperature. Calculation of the size of this effect reveals that it is too small to explain the changes observed. X-ray observations made with EXOSAT with excellent time resolution allowed timing of the X-ray absorption features seen near orbital phase zero. Simultaneous X-ray spectra allowed an estimate of their column density as 2.0 x 1023 cm⁻². Two scale lengths of dips were found of 10⁸ and 10¹¹ cm. These values are in good agreement with theoretical predictions for the sizes of inhomogeneties in high mass loss stellar winds. The location of the material producing the absorption dips was calculated as being ≃ 4-8 R⊙ from the X-ray source. / Science, Faculty of / Physics and Astronomy, Department of / Graduate
20

Spectra of late-type in the one to four micron region /

Rinsland, Curtis Philip January 1980 (has links)
No description available.

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