Theoretical support for reality of pressure mode pulsations on a white dwarf

Researchers from the Yunnan Observatories of the Chinese language Academy of Sciences (CAS) have carried out an in depth asteroseismic evaluation on a particularly low-mass white dwarf (WD) that reveals suspected strain mode (p-mode) pulsations. They not solely detect the abundance profiles contained in the WD, but in addition present theoretical help for the fact of the p-modes.

The research was revealed in The Astrophysical Journal.

Some WDs have been discovered to exhibit pulsations. One kind of pulsation is the p-mode with excessive frequency, and the opposite is the gravity mode (g-mode) with low frequency.

The durations of p-mode pulsations are often within the order of seconds or much less on WDs, which makes it a problem to detect these pulsations. Nevertheless, for low-mass WDs, the durations of p-mode pulsations may be so long as 100 seconds and has an observable amplitude.

SDSS J111215.82+111745.0 is a particularly low-mass WD. Two shortperiod pulsations, 107.56 seconds and 134.275 seconds, had been detected on this star. If the fact of those two suspected p-mode pulsations is confirmed, they’d be the primary p-mode pulsations noticed on a WD.

On this research, the researchers tried to supply sturdy help for the affirmation of those suspected p-mode pulsations by way of modeling and evaluation.

They made an in depth asteroseismic modeling for SDSS J111215.82+111745.0, through which the hydrogen abundance profile was taken as a variable. They took the entire set of seven pulsating durations (two p-modes and 5 g-modes) into consideration and fitted them with the fashions’ eigenfrequencies.

The 2 suspected p-modes had been effectively represented within the best-fit mannequin. They’ve discovered a mannequin with p-mode pulsations in line with the durations noticed on SDSS J111215.82+111745.0, which offers theoretical help for the fact of the 2 p-mode pulsations.

Furthermore, the principle parameters, M = 0.1650 ± 0.0137 solar mass and Teff = 9750 ± 560 Ok, and the chemical profiles of this star had been decided from the best-fit mannequin.

The stellar parameters decided from their mannequin had been in good settlement with that derived from spectroscopy and with the outcomes of different asteroseismic evaluation.