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Journal "Peremennye Zvezdy"
Peremennye Zvezdy

Peremennye Zvezdy (Variable Stars) 29, No. 1, 2009

Received 24 September; accepted 20 October.

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Photometry of the Post-AGB Star IRAS 22272+5435=V354 Lac in 1990-2008

V. P. Arkhipova, N. P. Ikonnikova, G. V. Komissarova

Sternberg Astronomical Institute, University Ave. 13, 119992 Moscow, Russia


New  photometry obtained in 2000-2008 is presented for the post-AGB star IRAS 22272+5435 = V354 Lac. The star showed semi-regular light variations with varying amplitudes. The maximal amplitude did not exceed: , , and . For 2000-2008, we have found a photometric period near 128 days. The analysis of long-term observations in 1990-2008 reveals variations with two close periods: 128 and 131 days, causing amplitude modulation. The diagram shows a clear correlation: the star is generally bluer when brighter. From our data, we derive and conclude that the spectral type of the star varies between K1 and K7 during pulsations. The mean  data for V354 Lac have not changed during the past 19 years: , , and .


1. INTRODUCTION

The IR source IRAS 22272+5435 is identified with the bright star BD+542787
HD 235858 (2229104 +5451 06 , 2000). It is one of the most reliable protoplanetary nebula candidates.

The spectral energy distribution of IRAS 22272+5435 shows a characteristic double peak, with about the same amounts of energy emitted in the visible plus near-infrared (from the reddened photosphere) and in the mid-infrared (re-emission from circumstellar dust) (Hrivnak and Kwok 1991).

The chemical composition of IRAS 22272+5435 is typical of carbon post-AGB stars. Zacs, Klochkova, and Panchuk (1995) found the star to be iron poor: [Fe/H]. The elements of the -process are overabundant relative to the solar composition, and the carbon abundance is C/O12. In the spectra of IRAS 22272+5435, strong molecular bands of C and C are found (Hrivnak and Kwok 1991).

In the survey of protoplanetary nebula candidates with the Hubble Space Telescope, Ueta et al. (2000) discovered an elongated low-surface-brightness reflection nebulosity around IRAS 22272+5435. These authors believe that a multilobed nebula may be a progenitor of a complex planetary nebula.

The spectral classification of V354 Lac is a difficult problem because of its peculiar spectrum. In the HD catalog, HD 235858 has the spectral type K5. McCuskey (1955) classified the object as M0III and Hrivnak and Kwok (1991), as GpIa. The atmospheric parameters of IRAS 22272+5435,  K and , correspond to a G2 supergiant (Zacs, Klochkova, and Panchuk 1995).

The brightness variability of BD+542787 was discovered by Strohmeier and Knigge (1960). They list it as a possible short-period variable with an amplitude of 05. Filatov (1961) reported irregular variability of the star with an amplitude of 15-20. In the 62nd GCVS Name-List (Kukarkin et al. 1977), BD+542787 got the designation V354 Lac. The GCVS variability type currently listed for the star is LB (a slow irregular variable).

Table.  photometry of V354 Lac in 2000-2008

JD JD JD
245... 245... 245...
1708 8.506 2.049 2.101 2621 8.643 2.070 2.220 3622 8.528 2.035 2.059
1709 8.513 2.068 2.124 2635 8.650 2.045 2.128 3648 8.720 2.078 2.175
1710 8.523 2.058 2.225 2817 8.546 2.059 2.242 3676 8.608 2.060 2.115
1721 8.513 2.040 2.039 2820 8.527 2.056 2.206 3685 8.548 2.035 2.142
1724 8.521 2.064 2.097 2824 8.583 2.043 2.129 3748 8.617 2.066 2.076
1728 8.553 2.066 2.217 2857 8.649 2.044 1.863 3942 8.521 2.057 2.158
1734 8.566 2.045 2.204 2860 8.665 2.058 2.031 3946 8.496 2.032 2.129
1751 8.589 2.085 2.175 2866 8.668 2.110 2.234 3948 8.495 2.004 2.096
1752 8.605 2.067 2.132 2869 8.716 2.133 2.200 3950 8.464 2.063 2.108
1752 8.594 2.071 2.101 2870 8.700 2.078 1.911 3963 8.368 1.949 2.029
1754 8.569 2.072 2.163 2871 8.717 2.075 1.918 3964 8.351 1.952 1.982
1763 8.546 2.057 2.262 2872 8.708 2.133 2.049 3965 8.360 1.945 1.990
1766 8.538 2.055 2.097 2873 8.716 2.077 2.030 3966 8.353 1.955 1.957
1768 8.528 2.055 2.100 2874 8.736 2.122 2.270 3967 8.358 1.945 1.949
1778 8.571 2.063 2.105 2875 8.723 2.064 1.962 3978 8.391 1.952 2.058
1780 8.565 2.043 2.113 2882 8.744 2.140 2.217 3991 8.471 1.995 2.031
1781 8.567 2.069 2.220 2890 8.721 2.076 2.189 4011 8.671 2.078 2.112
1782 8.558 2.052 2.239 2903 8.776 2.089 2.149 4013 8.683 2.097 2.170
1791 8.600 2.063 2.291 2905 8.771 2.074 2.202 4014 8.697 2.110 2.123
1806 8.598 2.047 2.156 2915 8.744 2.090 2.175 4029 8.791 2.139 2.257
1810 8.565 2.014 2.117 2930 8.752 2.146 2.248 4036 8.787 2.112 2.220
1810 8.567 2.018 2.134 2944 8.747 2.086 1.983 4298 8.787 2.158 2.292
1816 8.561 2.018 2.080 2984 8.649 2.068 2.136 4301 8.793 2.147 2.270
1820 8.568 2.052 2.209 2996 8.702 2.119 2.248 4316 8.693 2.124 2.183
1822 8.574 2.035 2.118 3003 8.737 2.147 2.251 4317 8.682 2.118 2.261
1822 8.561 2.054 2.091 3015 8.762 2.142 2.171 4319 8.663 2.091 2.184
1834 8.564 2.018 1.916 3032 8.754 2.070 2.128 4322 8.630 2.062 2.108
1840 8.572 2.051 2.116 3176 8.507 2.014 1.891 4328 8.535 2.014 2.000
1843 8.570 2.078 2.314 3182 8.495 2.039 2.072 4332 8.451 1.988 2.047
1853 8.562 2.082 2.266 3193 8.439 2.032 2.078 4342 8.427 1.980 1.964
2086 8.653 2.055 2.162 3196 8.446 2.026 2.095 4349 8.452 1.993 2.074
2106 8.724 2.110 2.254 3202 8.411 2.001 2.080 4363 8.509 2.020 2.144
2112 8.653 2.086 2.003 3205 8.408 1.996 2.091 4369 8.532 2.005 2.189
2119 8.650 2.094 2.101 3212 8.406 1.963 2.031 4370 8.525 2.032 2.051
2132 8.581 2.053 2.108 3216 8.418 1.960 1.994 4372 8.551 2.014 2.079
2133 8.595 2.056 2.214 3223 8.440 1.989 2.045 4374 8.544 2.019 2.103
2137 8.580 2.034 2.068 3230 8.491 2.008 2.038 4385 8.550 2.004 2.116
2138 8.554 2.051 2.247 3255 8.707 2.137 2.182 4386 8.558 2.035 2.068
2142 8.556 2.043 2.117 3261 8.729 2.149 2.283 4393 8.598 2.048 2.088
2172 8.583 2.052 2.194 3268 8.775 2.144 2.313 4426 8.880 2.162 2.192
2186 8.619 2.083 2.204 3270 8.793 2.146 2.265 4654 8.552 2.078 2.245
2187 8.632 2.077 2.262 3273 8.814 2.133 2.222 4676 8.699 2.128 2.331
2192 8.643 2.104 2.231 3283 8.747 2.106 2.191 4677 8.699 2.125 2.063
2196 8.648 2.094 2.250 3291 8.722 2.077 2.179 4682 8.743 2.122 2.282
2199 8.647 2.108 2.284 3292 8.649 2.092 2.159 4686 8.751 2.131 2.294
2210 8.756 2.111 2.210 3304 8.543 2.084 2.157 4696 8.808 2.128 2.262
2454 8.557 2.021 2.092 3305 8.537 2.073 2.214 4700 8.833 2.128 2.220
2460 8.581 2.054 2.157 3313 8.463 2.064 2.215 4703 8.810 2.122 2.181
2462 8.580 2.044 1.911 3320 8.476 2.064 2.196 4705 8.799 2.123 2.270
2470 8.615 2.075 1.943 3383 8.535 2.180 2.115 4714 8.765 2.132 2.261
2518 8.579 2.093 2.211 3384 8.560 2.102 2.214 4715 8.765 2.127 2.286
2528 8.533 2.032 2.040 3547 8.833 2.060 2.060 4717 8.760 2.121 2.305
2586 8.480 1.981 1.960 3548 8.823 2.055 2.075 4742 8.586 2.080 2.228
2587 8.510 2.013 2.157 3563 8.639 2.037 2.059 4761 8.499 2.060 2.205
2595 8.481 2.037 2.114 3593 8.380 1.952 2.016 4768 8.502 2.087 2.205
2597 8.521 2.028 2.076 3595 8.388 1.937 1.958 4783 8.574 2.117 2.288
2613 8.590 2.089 2.217 3610 8.502 1.989 2.012 4799 8.672 2.125 2.282
2618 8.630 2.082 2.076 3614 8.519 2.005 1.971 4801 8.659 2.113 2.225
2620 8.645 2.086 2.242 3616 8.514 2.028 1.964 4802 8.667 2.123 2.261

The light-curve and radial-velocity studies of V354 Lac were carried out by Hrivnak and Lu (2000) respectively in 1994-1996 and 1991-1995. They found brightness and radial-velocity variability with the period .

The radial-velocity monitoring of V354 Lac performed by Zacs et al. (2009) confirmed regular variations with a peak-to-peak amplitude of about 10 km s and a period of about 131.2 days.

2. OBSERVATIONS OF V354 Lac

Fig. 1. The light and color curves of V354 Lac in 1990-2008.

Our photometry of IRAS 22272+5435 was performed in 1990-2008 with the 0.6-m telescope of the Crimean Station of the Sternberg Astronomical Institute. The measurements were obtained using a pulse-counting photometer with an EMI 9789 photomultiplier and a filter set consistent with the Johnson system. All observations were made with respect of the comparison star BD+542793 (, , ). The typical photometric uncertainties range from 001 in the  band to 005 in the  band. The observations obtained in 1990-1999 were published earlier (Arkhipova et al. 1993 and Arkhipova et al. 2000). The  photometry performed after 1999 is listed in Table 1. The light and color curves of V354 Lac for 1990-2008 are presented in Fig. 1.

Fig. 2. The power spectrum of V354 Lac for the observations of 1990-2008.

Fig. 3. The power spectra (top panel) and the phased light curve (bottom panel) of V354 Lac for observations of 2000-2008.

During our observations, V354 Lac showed semi-regular brightness variations with varying amplitudes. Its largest amplitudes do not exceed , , .

We searched for periodicity in the observations obtained in 1990-2008 using the DFT (Discrete Fourier Transforms) package by Dr. V.M. Lyuty.

In the power spectrum (Fig. 2), triplet frequencies are dominating: , , . The ratios and are close to 1.024. The periods and have approximately the same amplitudes, about in the  band.

A single period,  days, was found in the observations of 2000-2008. The corresponding power spectra and the -band phased light curve are shown in Fig. 3.

Fig. 4. The radial-velocity variations of V354 Lac (black filled circles) with a sinusoid fit (=131.2 days; black curve) and light curve (red filled circles) with a sinusoid fit (=128 days; red curve).

Considering the radial-velocity variations (Zacs et al., 2009) together with our light curve (Fig. 4) confirms the conclusion of Hrivnak and Lu (2000) that V354 Lac "is brightest when it is at its average size and expanding and faintest when at its average size and contracting". Hrivnak and Lu interpreted this variability as due to pulsation in the star rather than to its binary nature.

Fig. 5. The color-brightness diagram for V354 Lac.

The diagram shows a clear correlation: the star is generally bluer when brighter (Fig. 5).

V354 Lac is located at a low galactic latitude (). The interstellar extinction in the direction of V354 Lac from maps of Neckel and Klare (1980) is at  kpc. From data, we conclude that and . Thus, practically all the color excess can be caused by interstellar extinction.

In the - two-color diagram (Fig.6), the star moves along the sequence of supergiants in the course of its fluctuations. Correction of the color indices for reddening with puts the star on the sequence of supergiants, where the spectral type of the star varies during pulsations from K1 to K7.

Fig. 6. V354 Lac in the $(U{-}B){-}(B{-}V)$ two-color diagram. The solid curve is the supergiant sequence according to Straizys (1977); the dots represent our observations and the open circles, data de-reddened with $E(B{-}V)=0.5$.

3. Conclusions

Our long-term  photometry of the post-AGB star V354 Lac permitted to study its variability character. V354 Lac showed semi-regular light variations with varying amplitudes. The maximal amplitudes did not exceed: , , . The observed behavior of V354 Lac is explained with beating of two closely spaced pulsation modes with the period ratio 1.02. The other post-AGB stars with amplitude modulation are IRAS 19386+0155V1648 Aql (Arkhipova et al. 2009) and IRAS 08544-4431 (Kiss et al. 2007). The period ratio for them is 1.04. Some pulsating red variables on the asymptotic giant branch (AGB) show pulsations with two close periods. Such a phenomenon is detected, for example, for RX UMa and RY Leo (Kiss et al. 2000). The authors of the cited paper assumed that the period ratios found for these stars (1.03-1.10) suggested either high-order overtone or radialnon-radial oscillation.

The mean parameters of V354 Lac have not changed during the past 19 years: , , and .

The brightness and the colors change in phase: the star is generally bluer when brighter. The temperature variations during pulsations correspond to the changes of the spectral type between K1 and K7.

Acknowledgements: This study was partly supported by the Council for the Program of Support for Leading Scientific Schools (project NSh.433.2008.2).

References:

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