好奇变量实验(CURVE)。活动矮新星DI UMa的CCD光度测定

A. Rutkowski, A. Olech, M. Wi'sniewski, P. Pietrukowicz, J. Pala, Radosław Poleski
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引用次数: 9

摘要

我们报告了DI UMa,一个非常活跃的矮新星的光度行为分析。观测活动(于2007年完成)涵盖了5次超级爆发和4次普通爆发。我们检查了系统的主要参数,以了解DI UMa和其他活跃的突变变量的特性。基于精确的光度测量、时间光曲线行为、O-C分析和功率谱分析,我们研究了系统的物理参数。我们发现超级周期现在等于31.45 +/-0.3天。在超级爆发期间的观测推断,超级峰的周期等于P_sh = 0.055318(11)天(79.66±0.02分钟)。在静止期间,光曲线显示周期P_orb = 0.054579(6)天(78.59±0.01分钟)的调制,我们将其解释为双星系统的轨道周期。获得的值使我们能够确定1.35% +/- 0.02%的分数周期超额,与矮新星的通常值(2%-5%)相比,这是惊人的小。对两个覆盖范围最广的超级爆发进行了详细的O-C分析。在这两种情况下,我们都检测到超级峰期的增加,平均速率为dot_P/P_sh = 4.4(1.0)*10^{-5}。根据这些测量,我们确认DI UMa可能是一个周期跳跃者,一个在很久以前达到其周期最小值的旧系统,有一个次级系统变成了一个简并的褐矮星,整个系统现在朝着更长的周期发展。DI UMa是一个非常有趣的天体,因为我们知道只有一颗更活跃的ER UMa恒星具有类似的特征(IX Dra)。
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Curious Variables Experiment (CURVE). CCD photometry of active dwarf nova DI UMa
We report an analysis of photometric behaviour of DI UMa, an extremely active dwarf nova. The observational campaign (completed in 2007) covers five superoutbursts and four normal outbursts. We examined principal parameters of the system to understand peculiarities of DI UMa, and other active cataclysmic variables. Based on precise photometric measurements, temporal light curve behaviour, O-C analysis, and power spectrum analysis, we investigated physical parameters of the system. We found that the period of the supercycle now equals 31.45 +/-0.3 days. Observations during superoutbursts infer that the period of superhumps equals P_sh = 0.055318(11) days (79.66 +/- 0.02 min). During quiescence, the light curve reveals a modulation of period P_orb = 0.054579(6) days (78.59 +/- 0.01 min), which we interpret as the orbital period of the binary system. The values obtained allowed us to determine a fractional period excess of 1.35% +/- 0.02%, which is surprisingly small compared to the usual value for dwarf novae (2%-5%). A detailed O-C analysis was performed for two superoutbursts with the most comprehensive coverage. In both cases, we detected an increase in the superhump period with a mean rate of dot_P/P_sh = 4.4(1.0)*10^{-5}. Based on these measurements, we confirm that DI UMa is probably a period bouncer, an old system that reached its period minimum a long time ago, has a secondary that became a degenerate brown dwarf, the entire system evolving now toward longer periods. DI UMa is an extremely interesting object because we know only one more active ER UMa star with similar characteristics (IX Dra).
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