The Evolution of NGC 7027 at Radio Frequencies: A New Determination of the Distance and Core Mass

TL;DR

This study monitors NGC 7027 over 25 years, revealing its radio flux evolution, deriving its distance and core mass, and refining radio flux calibration methods using detailed modeling and observations.

Contribution

It provides a comprehensive analysis of NGC 7027's radio flux evolution, distance, and stellar parameters, and proposes an adjustment to the radio flux scale based on modeling.

Findings

Flux density at 1465 MHz is increasing at 0.251% per year.

Optically thin flux density is decreasing at 0.145% per year.

Derived distance to NGC 7027 is 980±100 pc.

Abstract

We present the results of a 25-year program to monitor the radio flux evolution of the planetary nebula NGC7027. We find significant evolution of the spectral flux densities. The flux density at 1465 MHz, where the nebula is optically thick, is increasing at a rate of 0.251+-0.015 % per year, caused by the expansion of the ionized nebula. At frequencies where the emission is optically thin, the spectral flux density is changing at a rate of -0.145+-0.005 % per year, caused by a decrease in the number of ionizing photons coming from the central star. A distance of 980+-100 pc is derived. By fitting interpolated models of post-AGB evolution to the observed changes, we find that over the 25-yr monitoring period, the stellar temperature has increased by 3900+-900 K and the stellar bolometric luminosity has decreased by 1.75+-0.38 %. We derive a distance-independent stellar mass of 0.655+-0.01 solar masses adopting the Bloecker stellar evolution models, or about 0.04 solar masses higher when using models of Vassiliadis & Wood which may provide a better fit. A Cloudy photoionization model is used to fit all epochs at all frequencies simultaneously. The differences between the radio flux density predictions and the observed values show some time-independent residuals of typically 1 %. A possible explanation is inaccuracies in the radio flux scale of Baars et al. We propose an adjustment to the flux density scale of the primary radio flux calibrator 3C286, based on the Cloudy model of NGC7027. We also calculate precise flux densities for NGC7027 for all standard continuum bands used at the VLA, as well as for some new 30GHz experiments.