Estimating Be Star Disk Radii using H-alpha Emission Equivalent Widths

We present numerical models of the circumstellar disks of Be stars, and we describe the resulting synthetic H-alpha emission lines and maps of the wavelength-integrated emission flux projected onto the sky. We demonstrate that there are monotonic relationships between the emission line equivalent width and the ratio of the angular half-width at half maximum of the projected disk major axis to the radius of the star. These relationships depend mainly upon the temperatures of the disk and star, the inclination of the disk normal to the line of sight, and the adopted outer boundary for the disk radius. We show that the predicted H-alpha disk radii are consistent with those observed directly through long baseline interferometry of nearby Be stars (especially once allowance is made for disk truncation in binaries and for dilution of the observed H-alpha equivalent width by continuum disk flux in the V-band).Comment: 12 pages, 2 figures, ApJL in pres

4U2206+54 - an Unusual High Mass X-ray Binary with a 9.6 Day Orbital Period but No Strong Pulsations

Rossi X-ray Timing Explorer All-Sky Monitor observations of the X-ray source 4U2206+54, previously proposed to be a Be star system, show the X-ray flux to be modulated with a period of approximately 9.6 days. If the modulation is due to orbital variability then this would be one of the shortest orbital periods known for a Be star X-ray source. However, the X-ray luminosity is relatively modest whereas a high luminosity would be predicted if the system contains a neutron star accreting from the denser inner regions of a Be star envelope. Although a 392s pulse period was previously reported from EXOSAT observations, a reexamination of the EXOSAT light curves does not show this or any other periodicity. An analysis of archival RXTE Proportional Counter Array observations also fails to show any X-ray pulsations. We consider possible models that may explain the properties of this source including a neutron star with accretion halted at the magnetosphere and an accreting white dwarf.Comment: Accepted for publication in the Astrophysical Journa

The Outbursts and Orbit of the Accreting Pulsar GS 1843-02 = 2S 1845-024

We present observations of a series of 10 outbursts of pulsed hard X-ray flux from the transient 10.6 mHz accreting pulsar GS 1843-02, using the Burst and Transient Source Experiment on the Compton Gamma Ray Observatory. These outbursts occurred regularly every 242 days, coincident with the ephemeris of the periodic transient GRO J1849-03 (Zhang et al. 1996), which has recently been identified with the SAS 3 source 2S 1845-024 (Soffitta et al. 1998). Our pulsed detection provides the first clear identification of GS 1843-02 with 2S 1845-024. We present a pulse timing analysis which shows that the 2S 1845-024 outbursts occur near the periastron passage of the neutron star's highly eccentric (e = 0.88+-0.01) 242.18+-0.01 day period binary orbit about a high mass (M > 7 solar masses) companion. The orbit and transient outburst pattern strongly suggest the pulsar is in a binary system with a Be star. Our observations show a long-term spin-up trend, with most of the spin-up occurring during the outbursts. From the measured spin-up rates and inferred luminosities we conclude that an accretion disk is present during the outbursts.Comment: Accepted for publication in Astrophysical Journa

Optical pulsations in the cataclysmic binary 3A 0729+103

Fast photometric observations of the newly discovered cataclysmic variable 3A 0729+103 are reported. Regular optical pulsations, with an average semiamplitude of ~0.15 mag in B-band and having a period in agreement with that reported by McHardy et al. (1982) are clearly detected in the light curve of the star. The optical pulse has a sinusoidal shape. Flares with a maximum amplitude of ~0.43 mag have also been observed. There is also suggestion of flickering on time scales of ≧10s. It is suggested that 3A 0729+103 is similar in characteristics to H 2252-035 class of cataclysmic binaries containing rapidly rotating white dwarfs. Interpretation of the period of optical pulse as the beat period leads to prediction of X-ray pulse period to be about 847s for prograde rotation and 991s for retrograde rotation of the white dwarf compared to the reported ~900-1000s period. Alternative interpretation of the observed optical pulse being due to directly beamed radiation from the vicinity of the pole of the white dwarf is also considered

A Decade in the Life of EXO 2030+375: A Multi-wavelength Study of an Accreting X-ray Pulsar

Using BATSE and RXTE observations from 1991 April to 2001 August we have detected 71 outbursts from 82 periastron passages of EXO 2030+375, a 42-second transient X-ray pulsar with a Be star companion, including several outbursts from 1993 August to 1996 April when the source was previously believed to be quiescent. Combining BATSE, RXTE, and EXOSAT data we have derived an improved orbital solution. Applying this solution results in a smooth profile for the spin-up rate during the giant outburst and results in evidence for a correlation between the spin-up rate and observed flux in the brighter BATSE outbursts. Infrared and Halpha measurements show a decline in the density of the circumstellar disk around the Be star. This decline is followed by a sudden drop in the X-ray flux and a turn-over from a spin-up trend to spin-down in the frequency history. This is the first Be/X-ray binary which shows an extended interval, about 2.5 years, where the global trend is spin-down, but the outbursts continue. In 1995 the orbital phase of EXO 2030+375's outbursts shifted from peaking about 6 days after periastron to peaking before periastron. The outburst phase slowly recovered to peaking at about 2.5 days after periastron. We interpret this shift in orbital phase followed by a slow recovery as evidence for a global one-armed oscillation propagating in the Be disk. This is further supported by changes in the shape of the Halpha profile which are commonly believed to be produced by a reconfiguration of the Be disk. The truncated viscous decretion disk model provides an explanation for the long series of normal outbursts and the evidence for an accretion disk in the brighter normal outbursts.Comment: 24 pages, 11 figures, accepted for publication in Ap

Observations of Accreting Pulsars

We summarize five years of continuous monitoring of accretion-powered pulsars with the Burst and Transient Source Experiment (BATSE) on the Compton Gamma Ray Observatory. Our 20-70 keV observations have determined or refined the orbital parameters of 13 binaries, discovered 5 new transient accreting pulsars, measured the pulsed flux history during outbursts of 12 transients (GRO J1744-28, 4U 0115+634, GRO J1750-27, GS 0834-430, 2S 1417-624, GRO J1948+32, EXO 2030+375, GRO J1008-57, A 0535+26, GRO J2058+42, 4U 1145-619 and A 1118-616), and also measured the accretion torque history of during outbursts of 6 of those transients whose orbital parameters were also known. We have also continuously measured the pulsed flux and spin frequency for eight persistently accreting pulsars (Her X-1, Cen X-3, Vela X-1, OAO 1657-415, GX 301-2, 4U 1626-67, 4U 1538-52, and GX 1+4). Because of their continuity and uniformity over a long baseline, BATSE observations have provided new insights into the long-term behavior of accreting magnetic stars. We have found that all accreting pulsars show stochastic variations in their spin frequencies and luminosities, including those displaying secular spin-up or spin-down on long time scales, blurring the conventional distinction between disk-fed and wind-fed binaries. Pulsed flux and accretion torque are strongly correlated in outbursts of transient accreting pulsars, but uncorrelated, or even anticorrelated, in persistent sources.Comment: LaTeX, psfig, 90 pages, 42 figures. To appear in Dec. 1997 ApJS, Vol 113, #

Influence of nitrogen, Azospirillum sp. and farmyard manure on growth, yield and inci- dence of stem gall disease in coriander (Coriandrum sativum L.)

The influence of Azospirillum sp. (biofertilizer), nitrogen fertilizer, farmyard manure and theircombinations on coriander (Coriandrum sativum), was studied at Ajmer (Rajasthan).Azospirillum sp. inoculation along with nitrogen and farmyard manure increased plant heightand number of primary branches plant-1 as compared to Azospirillum sp. alone and absolutecontrol. Number of umbels plant-1 and number of grains umbel-1 increased significantlywhen Azospirillum sp. was applied in combination with 100% nitrogen + 5 t farmyard ma-nure, 75% nitrogen + 5 t farmyard manure and 50% nitrogen + 5 t farmyard manure ha-1.Higher seed yield was recorded in Azospirillum sp. + 100% nitrogen + 5 t farmyard manure(10.8 q ha-1) followed by Azospirillum sp. + 75% nitrogen + 5 t farmyard manure (10.2 q ha-1)and Azospirillum sp. + 50% nitrogen + 5 t farmyard manure ha-1 (9.7 qha-1). The use ofAzospirillum  sp. + 50% nitrogen + 5 t farmyard manure ha-1 was the most economical treat-ment for obtaining higher seed yield. The Azospirillum sp. treatment combinations also re-duced the incidence of the seed-borne stem gall disease of coriander. &nbsp

Electrosorption of Cellosolve at Ethyl Mercury/KCl Solution Interface

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