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1.
A. V. Meshcheryakov M. G. Revnivtsev M. N. Pavlinsky I. Khamitov I. F. Bikmaev 《Astronomy Letters》2010,36(10):738-751
The variability of the optical and X-ray fluxes from the binary GS 1826-238 is investigated. An epoch-folding analysis of
the optical data obtained with the RTT-150 telescope in 2003–2004 has revealed periodic brightness variations in the source
with a period P
orb = 2.24940 ± 0.00015 h with a high statistical significance. When estimating the detection significance of the periodic signal,
we have specially taken into account the presence of a powerful aperiodic component (“red noise”) in the source’s brightness
variability. The source’s power density spectra in the frequency range ∼10−5–0.01 Hz have been obtained. We have detected a statistically significant break in the power density spectrum of GS 1826-238
at a frequency ν
br ≈ (8.48 ± 0.14) × 10−5 Hz in both optical and X-ray energy bands. We have estimated the orbital period of the binary GS 1826-238 using the correlation
between the break frequency in the power density spectrum and the orbital period of binaries, P
orb ∝ 1/ν
br, found by Gilfanov and Arefiev (2005): P
orb = 3.7 ± 0.8 h and P
orb = 11.3 ± 5.9 h when using Sco X-1 and 1H 16267-273, respectively, as reference sources. It seems to us that the method for
estimating the orbital periods of low-mass X-ray binaries using the correlation P
orb ∝ 1/ν
br may turn out to be very promising, especially for persistent low-luminosity X-ray binaries. 相似文献
2.
Solar rotation rate has been measured using the sunspot positions recorded by W.C. Bond during the period 1847 – 1849 at the
Harvard College Observatory. From the drawings carried out by Bond we have selected the sunspots and groups of sunspots with
more reliable positions presented in three or more drawings on successive days. We have calculated from the positions of the
selected sunspots (41 in total) a synodic rotation rate of ω=[(12.92±0.08)−(1.5±1.0)sin 2
φ] degrees/day, where φ is the heliographic latitude. This rate, although slightly lower, is similar to the actual solar rotation rate, confirming
no important changes in the solar rotation during the last 160 years. 相似文献
3.
Results from two-color VR photometry of the unique cataclysmic magnetic variable star V1432 Aql and a theoretical model of
these data are presented. The accuracy is improved by using the “mean-weighted comparison star” method. The derivative of
the rotational period is dP/dt = −1.11(±0.016)·10−8. The characteristic synchronization time for the rotational and orbital motions of the white dwarf is 96.7±1.5 years, in
good agreement with theory for the acceleration of an asynchronous propeller owing to the angular momentum of accreting matter.
A third type of minimum detected in the light curve is interpreted in terms of the presence of an arc, or ring, rather than
an accretion disk. A theoretical model is developed for determining the capture radius of accreted matter by the magnetic
field of the white dwarf using the phase difference between the two types of minima associated with the axial rotation. This
parameter is estimated to be 16–28 times the radius of the white dwarf for an inclined column model. A dependence of the main
characteristics of the system on the mass of the white dwarf is derived which yields better values for the range of this quantity
than those determined by indirect methods. For the assumed masses (M1 = 0.9 M⊙ and M2 = 0.3 M⊙) the estimated accretion rate is ∼7×10−10 M⊙. It is shown that in a synchronizing polar the contribution to the change in the period by the variation in the angular momentum
of the white dwarf is negligible compared to the accretion torque. In the future multicolor monitoring is needed for studying
the spin-orbital synchronization and periodic changes in the accretion structure caused by “spinning” of the white dwarf.
__________
Translated from Astrofizika, Vol. 50, No. 1, pp. 135–159 (February 2007). 相似文献
4.
We have used two robotic telescopes to obtain time‐series high‐resolution optical echelle spectroscopy and VI and/or by photometry for a sample of 60 active stars, mostly binaries. Orbital solutions are presented for 26 double‐lined systems and for 19 single‐lined systems, seven of them for the first time but all of them with unprecedented phase coverage and accuracy. Eighteen systems turned out to be single stars. The total of 6609 R = 55000 échelle spectra are also used to systematically determine effective temperatures, gravities, metallicities, rotational velocities, lithium abundances and absolute Hα‐core fluxes as a function of time. The photometry is used to infer unspotted brightness, V – I and/or b – y colors, spot‐induced brightness amplitudes and precise rotation periods. An extra 22 radial‐velocity standard stars were monitored throughout the science observations and yield a new barycentric zero point for our STELLA/SES robotic system. Our data are complemented by literature data and are used to determine rotation‐temperature‐activity relations for active binary components. We also relate lithium abundance to rotation and surface temperature. We find that 74% of all known rapidly‐rotating active binary stars are synchronized and in circular orbits but 26% (61 systems) are rotating asynchronously of which half have Prot > Porb and e > 0. Because rotational synchronization is predicted to occur before orbital circularization active binaries should undergo an extra spin‐down besides tidal dissipation. We suspect this to be due to a magnetically channeled wind with its subsequent braking torque. We find a steep increase of rotation period with decreasing effective temperature for active stars, Prot α T–7eff, for both single and binaries, main sequence and evolved. For inactive, single giants with Prot > 100 d, the relation is much weaker, Prot α T‐1.12eff. Our data also indicate a period‐activity relation for Hα of the form RHα α P0.24rot for binaries and RHα α P‐0.14rot for singles. Its power‐law difference is possibly significant. Lithium abundances in our (field‐star) sample generally increase with effective temperature and are paralleled with an increase of the dispersion. The dispersion for binaries can be 1–2 orders of magnitude larger than for singles, peaking at an absolute spread of 3 orders of magnitude near Teff ≈ 5000 K. On average, binaries of comparable effective temperature appear to exhibit 0.25 dex less surface lithium than singles, as expected if the depletion mechanism is rotation dependent. We also find a trend of increased Li abundance with rotational period of form log n (Li) α –0.6 log Prot but again with a dispersion of as large as 3‐4 orders of magnitude (© 2012 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim) 相似文献
5.
We present the results of our infrared observations of WR 140 (=V1687 Cyg) in 2001–2010. Analysis of the observations has
shown that the J brightness at maximum increased near the periastron by about 0
m
.3; the M brightness increased by ∼2
m
in less than 50 days. The minimum J brightness and the minimum L and M brightnesses were observed 550–600 and 1300–1400 days after the maximum, respectively. The JHKLM brightness minimum was observed in the range of orbital phases 0.7–0.9. The parameters of the primary O5 component of the
binary have been estimated to be the following: R(O5) ≈ 24.7R
⊙, L(O5) ≈ 8 × 105
L
⊙, and M
bol(O5) ≈ −10
m
. At the infrared brightness minimum, T
g ∼ 820–880 K, R
g ≈ 2.6 × 105
R
⊙, the optical depth of the shell at 3.5 μm is ∼5.3 × 10−6, and its mass is ≈1.4 × 10−8
M
⊙. At the maximum, the corresponding parameters are ∼1300 K, 8.6 × 104
R
⊙, ∼2 × 10−4, and ∼6 × 10−8
M
⊙; the mean rate of dust inflow (condensation) into the dust structure is ∼3.3 × 10−8
M
⊙ yr−1. The mean escape velocity of the shell from the heating source is ∼103 km s−1 and the mean dispersal rate of the shell is ∼1.1 × 10−8
M
⊙ yr−1. 相似文献
6.
Measurements of the Doppler effect of the solar photosphere have been carried out at the Crimean Astrophysical Observatory
for 37 years, beginning in 1974 (in total, 2188 days or 13 247 h). The measurements use the differential center-to-limb method
of registration of line-of-sight velocity with a solar magnetograph (in the iron absorption line λ512.4 nm). As a result of
the experiment, two global pulsations of the sun with periods P
0 = 9600.606(12) and P
1 = 9597.936(16) s have been discovered. The nature of the periods is unknown. The first pulsation was detected in 1974–1982;
the second, during nearly all the 37 years. The 2008–2010 data confirm the stability of the initial phase of the P
1 pulsation with a mean (differential) amplitude of 0.25 m/s. The fact that the beat period of the two pulsations coincides
with the synodic period of Jupiter’s orbital revolution, i.e., 399 days, raises a new, complex problem for solar physics and
cosmogony. 相似文献
7.
We present projected rotational velocity measurements of the red giant in the symbiotic star MWC 560, using the high‐resolution spectroscopic observations with the FEROS spectrograph. We find that the projected rotational velocity of the red giant is v sin i = 8.2 ± 1.5 km s–1, and estimate its rotational period tobe Prot = 144–306 days. Using the theoretical predictions of tidal interaction and pseudosynchronization, we estimate the orbital eccentricity e = 0.68–0.82. We briefly discuss the connection of our results with the photometric variability of the object (© 2010 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim) 相似文献
8.
In searchs for flare stars in the vicinity of the Pleiades cluster, three flares were detected in 1970,1972, and 1977 in a
star with the coordinates α
1950
= 3
h
48
m
·9, δ
l950
= 25‡15’.8. The star’s brightness at a minimum is >21
m
·5. The star was tentatively assigned to the U Gem type. To confirm this assumption, we examined photographic plates for the
period of 1947–1987. As a result, we found 12 more flares. The average recurrence time based on the 1963–1977 observations
is about 330 days, and the maximum flare amplitude is >6
m
.Narrow superflares and steady-state flares lasting over 40 days have been observed in the star. The results show that this
is a dwarf nova of the UGSU subtype.
Translated from Astrofizika, Vol. 42, No. 1, pp. 47–52, January–March, 1999. 相似文献
9.
O. G. Badalyan 《Astronomy Letters》2012,38(1):51-61
The 1943–2001 data on the brightness of the coronal green λ530.3 nm line are used to investigate the surface distribution of the north-south (N-S) asymmetry index A. Synoptic maps of the asymmetry index in 784 successive Carrington rotations have been constructed. The results are presented
in the form of a movie that visualizes the time variation in the spatial distribution of the asymmetry. Examination of a series
of synoptic maps shows that the time variation in the general distribution of the A index over the solar surface has a number of peculiar features. In particular, the latitude-longitude regions with the dominance
of the green line brightness in one of the hemispheres are replaced by similar (in shape) regions with its dominance in the
other hemisphere after 14–18 rotations-in other words, the map, as it were, turns into its negative. This may be a manifestation
of the quasi-biennial oscillations in the N-S asymmetry. The synodic rotation period of the asymmetry “structures” has been
determined. It has turned out to be equal to the period of the fast coronal rotation mode found previously from the large-scale
brightness distribution of the coronal green line, i.e., this is 27 days on the equator and slightly more than 28 days at
high latitudes. The N-S asymmetry and its characteristics should be taken into account when considering the dynamo mechanism. 相似文献
10.
Gloria Sala Jochen Greiner Eugenio Bottacini Frank Haberl 《Astrophysics and Space Science》2007,309(1-4):315-319
The new black hole candidate XTE J1817-330, discovered on 26 January 2006 with RXTE, was observed with XMM-Newton and INTEGRAL
in February and March 2006, respectively. The X-ray spectrum is dominated by the thermal emission of the accretion disk in
the soft band, with a low absorption column density (N
H=1.77(±0.01)×1021 cm−2) and a maximum disk temperature kT
max=0.68(±0.01) keV, plus a power law component, with the photon index decreasing from 2.66±0.02 to 1.98±0.07 between the two
observations. Several interstellar absorption lines are detected in the X-ray spectrum, corresponding to O I, O II, O III,
O VII and Fe XXIV. We constrain the distance to the system to be in the range 1–5 kpc.
相似文献
11.
We analyse data obtained by different ground-based video camera systems during the 1999 Leonid meteor storm. We observe similar
activity profiles at nearby observing sites, but significant differences over distances in the order of 4,000 km. The main
peak occured at 02:03 UT (λ⊙=235.286, J2000, corrected for the time of the topocentric stream encounter). At the Iberian peninsula quasi-periodic activity
fluctuations with a period of about 7 min were recorded. The camera in Jordan detected a broad plateau of activity at 01:39–01:53
UT, but no periodic variations. The Leonid brightness distribution derived from all cameras shows a lack of faint meteors
with a turning point close to +3m, which corresponds to meteoroids of approximately 10-3 g. We find a pin-point radiant at αalpha=153.65 ±0.1, δ=21.80 ±0. (λ⊙=235.290). The radiant positionis identical before and after the storm, and also during the storm no driftis observed.
This revised version was published online in July 2006 with corrections to the Cover Date. 相似文献
12.
Burša Milan Kenyon Steve Kouba Jan Müller Achim Raděj Karel Vatrt Viliam Vojtíšková Marie Vítek Vojtěch 《Earth, Moon, and Planets》1999,84(3):163-176
The TOPEX/POSEIDON (T/P) satellite altimeter data from January 1, 1993to October 24, 1999 (cycles 11–261) was used for investigating
thelong-term variations in the geoidal geopotential W0 and/orin the geopotential scale factor R0 = GM/W0 (GM is theadopted geocentric gravitational constant). The mean valuesdetermined for the whole period covered are: W0 =(62 636 856.161 ± 0.002) m2 s-2, R0 =(6 363 672.5448 ± 0.0002) m. The actual accuracy is limited bythe altimeter calibration error (2–3 cm) and it isestimated
to be about ± 0.5 m2 s-2 (± 5 cm).The yearly variations of the above mean values are at the formalerror level. No long-term trend in W0, representing the oceanvolume change, was found for the seven years period 1993–9 on thebasis of T/P altimeter (AVISO) data.
No sea surface topography modelwas used in the solution.
This revised version was published online in July 2006 with corrections to the Cover Date. 相似文献
13.
The source IRAS 03134 + 5958 identified by Iyengar & Verma (1984) on the Palomar Observatory Sky Survey (POSS) prints with
a nonstellar optical object with [P – R]≃ 5.3 ± 1.5 is near the edge of Lynds dark cloud No. 1384 and is either embedded in or behind the cloud. The galactic latitude
of this source (b
II = 2‡.3), its positionvis-a-vis the Lynds dark cloud, its nonstellar appearance, high [P – R] colour and its far-infrared spectrum, all suggest the possibility of its being a Herbig-Haro (HH) object. To test this possibility
we undertook measurements of its proper motion and variability (two of the characteristic properties of HH objects). These
yield μa = (3.6 ± 2.3) arcsec/century and μδ= (−1.2 ± 2.0) arcsec/century for its proper motion. The source reveals large variation in brightness between 1950 and 1954.
Optical line studies of the source are required to confirm its classification as an HH object. 相似文献
14.
We have analyzed our long-term (1995–2008) JHKLM photometry for three variable RV Tau supergiants. It follows from this analysis that: the amplitude of the JHK brightness variations is approximately the same, 0
m
. 9–1
m
, for the three stars; a negative linear trend is noticeable in the variations of the mean J brightness for AC Her; and the mean J brightness of R Sct and V Vul remained constant. The observed J brightness fluctuations in the supergiants are shown to be consistent either only with the temperature pulsations (AC Her
and V Vul) or with the temperature and radial pulsations (R Sct). We have detected long-term pulsations in the J brightness and J-H color variations of the supergiants with the following characteristic time scales: ∼1500 days (AC Her), ∼3500 days (R Sct),
and ∼800 and ∼1500 days (V Vul). Our search for a periodic component in the infrared brightness variations of the three stars
has revealed periods that differ from those obtained from optical observations. We show that relatively hot dust shells (T
d ∼ 700–800 K) exist around the supergiants under study; the densest and most massive shell was observed for V Vul. The ranges
of optical-depth variations for the dust shells were τ(1.25 μm) ≈ 0.04–0.10 (AC Her), ≈0.02–0.12 (R Sct), and ≈0.18–0.32 (V Vul). The spectral types in the infrared varied over
narrower ranges than those that followed from optical observations of these stars. 相似文献
15.
Questions of the equilibrium, stability, and observational manifestations of strange stars are considered, in which electrical
neutralization of the quark matter is provided by positrons, as occurs for some sets of bag parameters resulting in a stiffer
equation of state. Such models consist entirely of self-contained, strange quark matter and their maximum mass reaches 2.4–2.5
M⊙ with a radius of 13–14 km. The cooling of such strange quark stars both in the absence and in the presence of mass accretion
is investigated. It is shown that in the absence of mass accretion onto the strange star, the dependence of temperature (T,
K) on age (t, yr) depends very little on the mass of the configuration and has the form T ≈ 2.3·108r−1/5. If the star’s initial temperature is sufficiently high (T0≥2·1010K), then the total number of electron-positron pairs emitted does not depend on it and is determined only by the total mass
of the configuration. In the case of accretion, the annihilation of electrons of the infalling fatter with positrons of the
strange quark matter results in the emission of γ-rays with an energy of∼0.5 MeV, by observing which one can distinguish candidates
for strange stars. The maximum temperature of strange stars with mass accretion is calculated.
Translated from Astrofizika, Vol. 42, No. 4, pp. 617–630, October–December, 1999. 相似文献
16.
Our aim is to investigate tidal interaction in High‐Mass X‐ray Binary stars in order to determine in which objects the rotation of the mass donors is synchronized or pseudosynchronized with the orbital motion of the compact companion. We calculate the pseudosynchronization period (Pps) and compare it with the rotational period of the mass donors (Prot). We find that (1) the Be/X‐ray binaries are not synchronized, the mass donors rotate faster than the orbital period and the ratio Pps/Prot is 2–300; (2) the giant and supergiant systems are close to synchronization and for them the ratio Pps/Prot is 0.3–2 (© 2009 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim) 相似文献
17.
To study the quantitative relationship between the brightness of the coronal green line 530.5 nm Fe xiv and the strength of the magnetic field in the corona, we have calculated the cross-correlation of the corresponding synoptic
maps for the period 1977 – 2001. The maps of distribution of the green-line brightness I were plotted using every-day monitoring data. The maps of the magnetic field strength B and the tangential B
t and radial B
r field components at the distance 1.1 R
⊙ were calculated under potential approximation from the Wilcox Solar Observatory (WSO) photospheric data. It is shown that
the correlation I with the field and its components calculated separately for the sunspot formation zone ±30° and the zone 40 – 70° has a cyclic
character, the corresponding correlation coefficients in these zones changing in anti-phase. In the sunspot formation zone,
all three coefficients are positive and have the greatest values near the cycle minimum decreasing significantly by the maximum.
Above 40°, the coefficients are alternating in sign and reach the greatest positive values at the maximum and the greatest
negative values, at the minimum of the cycle. It is inferred that the green-line emission in the zone ±30° is mainly controlled
by B
t, probably due to the existence of low arch systems. In the high-latitude zone, particularly at the minimum of the cycle,
an essential influence is exerted by B
r, which may be a manifestation of the dominant role of large-scale magnetic fields. Near the activity minimum, when the magnetic
field organization is relatively simple, the relation between I and B for the two latitudinal zones under consideration can be represented as a power-law function of the type I ∝ B
q. In the sunspot formation zone, the power index q is positive and varies from 0.75 to 1.00. In the zone 40 – 70°, it is negative and varies from −0.6 to −0.8. It is found
that there is a short time interval approximately at the middle of the ascending branch of the cycle, when the relationship
between I and B vanishes. The results obtained are considered in relation to various mechanisms of the corona heating. 相似文献
18.
A quantity of C-type asteroids with intermediate size has been selected as the targets of our observational program in Yunnan
Observatory, China since 2000. In this paper, we report the results of the photometric observation for three of them, 168
Sibylla, 206 Hersilia and 506 Marion during 2002–2003. The synodic period of 9.100±0.009 h of 206 is different from the value
given by Harris (2003). The synodic periods of 168 and 506 we estimated are 24.41±0.01 h, and 13.51±0.01 h, respectively,
which are slightly different from the values given by Harris (2003). Their composed lightcurves using new periods are presented. 相似文献
19.
For z = 0.8–2.2 redshift interval, quasar pair correlation function parameters and β redshift space distortion parameter (connected
to large-scale potential flows) values are estimated. We base them on the Main QSO Sample from SDSS Data Release 5. Standard
correlation function form ξ(r) = (r
0/r)γ is used for comoving distances r = 2–50 Mpc between quasars. We fix the parameters of the cosmological model: ΩΛ = 1 − Ω
M
= 0.726 and H
0 = 70.5 km/(s Mpc). We come to the best-fit parameter values of γ = 1.77 ± 0.20, r
0 = 5.52 ± 0.95 Mpc/h for r in the range 2–30 Mpc, γ = 1.91 ± 0.11, r
0 = 5.82 ± 0.61 Mpc for r in the range 2–50 Mpc. The mean β value is β = 0.43 ± 0.22. 相似文献
20.
V. P. Kozhevnikov 《Astronomy Letters》2010,36(8):554-568
Recently, it has been shown that the cataclysmic variable EI UMa should be attributed to intermediate polars on the basis
of its X-ray spectrum. However, no short-period oscillations with a high degree of coherence typical of intermediate polars
could be detected in this star. Therefore, it was suggested to call it a “hidden” intermediate polar. Using a multichannel
photometer and a 70-cm telescope, we performed observations of EI UMa for 60 h. Analysis of the observations has clearly revealed
a brightness oscillation with a period of 769.63±0.10 s and a mean semiamplitude of 0·
m
008 completely coherent during one month of our observations that was detectable during each of the 13 observing nights. On
the basis of this detection, EI UMa should be considered a classical intermediate polar rather than a hidden one. In addition,
we have managed to detect the orbital variability of EI UMa for the first time. The orbital light curve is extremely interesting,
showing evidence of partial eclipses of the accretion flow. 相似文献