Physics
Scientific paper
Nov 1944
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1944natur.154..606b&link_type=abstract
Nature, Volume 154, Issue 3915, pp. 606 (1944).
Physics
Scientific paper
THE pulsation phenomenon has so far been observed only in `super-giant' stars. However, there seems to be no theoretical reason why the phenomenon should not occur in denser stars and even in white dwarfs which are composed of degenerate matter. It is interesting to recall that according to current views a nova outburst is associated with a sudden collapse of the star, which after the disturbance settles down as a white dwarf. It is very likely that after such a cataclysmic disturbance the star would be left pulsating. Even if the physical conditions be not favourable for the maintenance of pulsation, yet the pulsation once started should last for a period comparable to 103 years. For a white dwarf the period of pulsation corresponding to the fundamental mode is easily estimated. Assuming the `homogeneous model', the period P is given by where M is the mass of the white dwarf, h is Planck's constant, m the electron mass, H the proton mass, G the gravitational constant, µ the mean molecular weight and solar the solar mass. In deriving the expression for the period, the effect of relativistic mechanics has been ignored. For the Stoner-Chandrasekhar critical mass the period tends to zero. The pulsation-period for a white dwarf is too small to be directly observable, and therefore the existence of pulsation in white dwarfs has to be looked for through its secondary effects.
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