Magnetic Ap Stars: Evolutionary Status and Abundance Anomalies

Some general properties and evolutionary status of magnetic Ap stars are briefly considered. Chemical abundance anomalies are discussed from the point of view of current theories presumably the radiative diffusion theory in the presence of magnetic field.

Abundance Analysis of Alpha Ursae Minoris

10.1017/s0252921100109224 ◽

1985 ◽

Vol 82 ◽

pp. 100-103

Author(s):

Sunetra Giridhar

Keyword(s):

Wavelength Range ◽

Evolutionary Status ◽

Spectrum Synthesis ◽

Abundance Anomalies ◽

Process Elements

AbstractWe have derived atmospheric abundances of the bright Cepheid a UMi in order to study the abundance anomalies in different elements. The atmospheric abundance of C, 0, Fe-peak elements Ca, Sc, Ti, Cr, Fe and heavier s-process elements Y, Ba, Ce and Sm have been derived using the method of spectrum synthesis. The abundance of carbon is derived using the C I lines in 4700A region, whereas for oxygen, the forbidden line at 6300.311A is employed. Abundances of the Fe-peak elements and s-process elements are obtained by synthesizing selected portions in the wavelength range 4330A - 4650A. The estimates of C/0 derived from the present investigation are compared with other Cepheids of similar period. The evolutionary status of a UMi is discussed in the light of these derived abundances.

On Magnetic Mixing and Rotation in Stellar Evolution

Symposium - International Astronomical Union ◽

10.1017/s0074180900145735 ◽

1978 ◽

Vol 80 ◽

pp. 323-331

Author(s):

Peter G. Gross

Keyword(s):

Magnetic Fields ◽

Stellar Evolution ◽

Evolutionary Status ◽

Relevant Parameter ◽

Stellar Rotation ◽

Convective Turbulence ◽

Stellar Interior ◽

Magnetic Mixing ◽

In this paper some thoughts and problems are presented from the viewpoint that the evolution of stars may play a key role in generating magnetic fields which, in turn, may affect the mixing of nuclearly processed elements from the stellar interior to the surface. The relevant parameter is stellar rotation which, upon interaction with convective turbulence driven by thermal instabilities, leads to the generation of magnetic fields. A possible connection to Bidelman's hypothesis on the evolutionary status of Ap stars is also discussed in the context of a post-core-helium-flash hypothesis.

Abundances in Magnetic Ap Stars

10.1017/s025292110002025x ◽

1993 ◽

Vol 138 ◽

pp. 18-25

Author(s):

Charles R. Cowley

Keyword(s):

Rare Earth ◽

Rare Earth Elements ◽

Rare Earths ◽

Chemical Separation ◽

Abundance Anomalies ◽

Ap Stars ◽

Spatial Inhomogeneities

AbstractThe spatial inhomogeneities, Zeeman broadening, and extreme abundance anomalies have thus far prevented definitive analyses of magnetic CP stars. Nevertheless, the abundance anomalies are so large that many of them have been known for decades. Abundance excesses of iron-peak elements of factors of 10 to 100 are common. Relative abundances on the iron peak are not constant. The lines of vanadium and nickel are often weak, and these elements may even be deficient in some stars. In spitè of the large variations, the odd-even effect persists; there is only minor evidence that chemical separation has perturbed the nuclear pattern. The lanthanide rare earths can have excesses of 100 to 1000 or even more in extreme cases. For these elements there is some evidence of fractionation. The actinide rare earth elements uranium and thorium are weakly (but surely!) present in a few of the magnetic CP stars: the best case is HR 465.

Statistical analysis of roAp, He-weak, and He-rich stars

Monthly Notices of the Royal Astronomical Society ◽

10.1093/mnras/stz1678 ◽

2019 ◽

Vol 487 (4) ◽

pp. 5922-5931

Author(s):

S Ghazaryan ◽

G Alecian ◽

A A Hakobyan

Keyword(s):

Data Base ◽

Statistical Tests ◽

Rotation Velocity ◽

High Resolution Spectroscopy ◽

Published Data ◽

Physical Parameters ◽

Peculiar Stars ◽

Abundance Anomalies ◽

Chemically Peculiar Stars ◽

Abstract To enlarge our data base of chemically peculiar stars, we compiled published data concerning the He-weak and He-rich stars observed by high-resolution spectroscopy techniques during last decades. Twenty He-weak and 28 He-rich stars have been added to the data base. We have also distinguished roAp stars from stars previously identified as Ap stars. To deepen our knowledge on statistical overview of the abundance anomalies versus the physical parameters of stars, we compared our data with previous compilations. We applied statistical tests on our data and found interesting correlations for effective temperature and surface gravity for all type of stars and a few correlations for projected rotation velocity only for He-rich stars. Because of the lack of the data, we could not check whether being a member of binary system is affecting on chemical peculiarities of those stars.

Abundance Anomalies in am Stars and their Relation to Ap Stars

10.1017/s0252921100080982 ◽

1976 ◽

Vol 32 ◽

pp. 663-673

Author(s):

V.L. Khokhlova ◽

D.A. Ptitsyn

Keyword(s):

Term Structure ◽

Light Elements ◽

Iron Group ◽

Continuous Transition ◽

Abundance Anomalies ◽

SummaryThe correlations of abundance anomalies of various elements in Am stars show continuous transition from normal through Am and Ap stars. There are poor correlations for some light elements and very good correlations for iron group and heavier elements. There is no obvious connection of the slope of correlation curves to ionisation potentials or opical term structure.

Fundamental parameters and evolutionary status of the magnetic chemically peculiar stars HD 188041 (V1291 Aquilae), HD 111133 (EP Virginis), and HD 204411: spectroscopy versus interferometry

Monthly Notices of the Royal Astronomical Society ◽

10.1093/mnras/stz1858 ◽

2019 ◽

Vol 488 (2) ◽

pp. 2343-2356 ◽

Cited By ~ 3

Author(s):

A Romanovskaya ◽

T Ryabchikova ◽

D Shulyak ◽

K Perraut ◽

G Valyavin ◽

...

Keyword(s):

Chemical Composition ◽

Measurement Errors ◽

Chemical Elements ◽

Model Fitting ◽

Evolutionary Status ◽

Fundamental Parameters ◽

Chemically Peculiar ◽

Peculiar Stars ◽

Chemically Peculiar Stars ◽

ABSTRACT The determination of fundamental parameters of stars is one of the main tasks of astrophysics. For magnetic chemically peculiar stars, this problem is complicated by the anomalous chemical composition of their atmospheres, which requires special analysis methods. We present the results of the effective temperature, surface gravity, abundance, and radius determinations for three CP stars HD 188041, HD 111133, and HD 204411. Our analysis is based on a self-consistent model fitting of high-resolution spectra and spectrophotometric observations over a wide wavelength range, taking into account the anomalous chemical composition of atmospheres and the inhomogeneous vertical distribution for three chemical elements: Ca, Cr, and Fe. For two stars, HD 188041 and HD 204411, we also performed interferometric observations that provided us with the direct estimates of stellar radii. Comparison of the radii determined from the analysis of spectroscopic/spectrophotometric observations with direct measurements of the radii by interferometry methods for seven CP stars shows that the radii agree within the limits of measurement errors, which proves indirect spectroscopic analysis capable of proving reliable determinations of the fundamental parameters of fainter Ap stars that are not possible to study with modern interferometric facilities.

A Survey for Pulsating Ap Stars from Naini Tal

10.1017/s0252921100058553 ◽

2000 ◽

Vol 176 ◽

pp. 485-486

Author(s):

Peter Martinez ◽

D. W. Kurtz ◽

U. S. Chaubey ◽

S. K. Gupta ◽

S. Joshi ◽

...

Keyword(s):

Temperature Range ◽

Chemically Peculiar ◽

Abundance Anomalies ◽

Ap Stars ◽

High Overtone

Pulsation is ubiquitous among chemically normal A-type stars, but comparatively rare among chemically peculiar Am and Ap stars of the same temperature range. The conventional explanation for this is that diffusion produces the surface abundance anomalies in the Am and Ap stars, and also drains He from the He-II ionisation zone, thus quenching the κ-mechanism that drives δ Scuti pulsation. The pulsating Am and Ap stars exhibit dichotomous pulsation characteristics. The Am stars (and related stars) exhibit low-overtone δ Scuti pulsation, with amplitudes ranging from a few mmag to 0.1 mag. The pulsating Ap stars exhibit high-overtone pulsation with periods in the range 6-16 min and Johnson B semi-amplitudes typically ≤ 5 mmag. These stars are referred to as rapidly oscillating Ap stars, or ‘roAp’ stars (the see review by Martinez & Kurtz 1995).

Fundamental Parameters of CP Stars

Highlights of Astronomy ◽

10.1017/s1539299600018372 ◽

1998 ◽

Vol 11 (2) ◽

pp. 657-660 ◽

Cited By ~ 2

Author(s):

P. North

Keyword(s):

Fundamental Parameters ◽

Abundance Anomalies ◽

The quest for accurate fundamental parameters (M, R, Teff log g, v sin i) of CP stars has been a lasting problem ever since the nature and origin of these stars has been discussed. The main reason for the difficulty lies in the anomalous colours of these stars, linked with their abundance anomalies which are responsible for complicated blocking and backwarming effects. In the following, we review the Teff determinations proposed so far, and show how the Hipparcos results improve the radius and log g determinations of nearby Ap stars.

Competition Between Diffusion Processes and Hydrodynamical Instabilities in Stellar Envelopes

Highlights of Astronomy ◽

10.1017/s1539299600003282 ◽

1977 ◽

Vol 4 (2) ◽

pp. 193-203

Author(s):

Gérard ◽

Sylvie Vauclair

Keyword(s):

Diffusion Processes ◽

Stellar Atmospheres ◽

Isotopic Ratios ◽

Absolute Abundance ◽

It Diffusion ◽

Quantitative Results ◽

Abundance Anomalies ◽

Macroscopic Motion ◽

Ap Stars ◽

Stellar Envelopes

Since the work of Michaud (1970), the abundance anomalies observed in the peculiar Ap and Am stars are increasingly believed to be a consequence of diffusion processes in stellar atmospheres or stellar envelopes. A number of the problems that seemed at first sight insoluble within the framework of diffusion processes have now been solved by it. Diffusion processes can, for example, account for anonalous helium isotopic ratios (Vauclair et al, 1974 (b)) and mercury isotopic ratios (Michaud et al, 1974). Quantitative results on abundance variations due to diffusion processes have been obtained (Michaud et al, 1976; Michaud, this conference; Alecian, 1976). They show that, in general, the relative abundance anomalies obtained from computation are close to the observed ones. It is now well established that the largest abundance anomalies observed in Ap stars (for rare earths) can be interpreted by diffusion processes with a satisfactory time scale, in a completely stable atmosphere. However, the predicted absolute abundance variations often exceed the observed ones, as in the case of Am stars. This suggests that the assumption of stability is not completely valid for the stellar gas: some kind of macroscopic motion, such as a meridional circulation or turbulence or both, must be at work and slow down the diffusion.