K. Li scite author profile

Using the precise times of mid-egress of the eclipsing polar HU Aqr, we discovered that this polar is orbited by two or more giant planets. The two planets detected so far have masses of at least 5.9 and 4.5\,M_{Jup}. Their respective distances from the polar are 3.6 AU and 5.4 AU with periods of 6.54 and 11.96 years, respectively. The observed rate of period decrease derived from the downward parabolic change in O-C curve is a factor 15 larger than the value expected for gravitational radiation. This indicates that it may be only a part of a long-period cyclic variation, revealing the presence of one more planet. It is interesting to note that the two detected circumbinary planets follow the Titus-Bode law of solar planets with n=5 and 6. We estimate that another 10 years of observations will reveal the presence of the predicted third planet.Comment: 13 pages, 4 figures, 2 table

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Optical flares and flaring oscillations on the M-type eclipsing binary CU Cancri

Qian

Zhang

Zhu

et al. 2012

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In this paper, we report on the discovery of an optical flare observed in the R band from the red‐dwarf eclipsing binary CU Cancri, whose component stars are at the upper boundary of full convection (M1= 0.43 M⊙ and M2= 0.4 M⊙, where M⊙ is the solar mass). The amplitude of the flare is the largest among those detected in the R band (∼0.52 mag) and the duration time is about 73 min. Like flares observed on the Sun, quasi‐periodic oscillations were seen during and after the flare. Three more R‐band flares were found by follow‐up monitoring. In total, this binary was monitored photometrically by using an R filter for 79.9 h, which has revealed an R‐band flare rate of about 0.05 flares per hour. Together with other strong chromospheric and coronal activities (i.e. very strong Hα and Hβ emission features and an extreme ultraviolet and X‐ray source), these detections indicate that it has very strong magnetic activity. Therefore, the apparent faintness (∼1.4 mag in the V band) of CU Cnc, compared with other single red dwarfs of the same mass, can be plausibly explained by the high coverage of dark spots.

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K. Li

Detection of a planetary system orbiting the eclipsing polar HU Aqr

Optical flares and flaring oscillations on the M-type eclipsing binary CU Cancri

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