Spectral Investigations of the nature of the Sco X-1 like sources

TL;DR

This study investigates the spectral properties of Sco X-1 like Z-track sources, revealing persistent high neutron star temperatures and flaring behaviors linked to unstable nuclear burning and accretion rate variations, challenging previous luminosity-based classifications.

Contribution

It provides a detailed spectral analysis of Sco X-1 like sources, highlighting their unique high-temperature and flaring characteristics, and compares them with Cyg X-2 like sources to refine the understanding of Z-track source behaviors.

Findings

Sco X-1 like sources have consistently high neutron star temperatures (>2 keV).

Flaring in Sco-like sources results from unstable nuclear burning and increased accretion rate.

Radiation pressure can disrupt the inner disk, launching jets in Cyg-like sources.

Abstract

We present results of spectral investigations of the Sco X-1 like Z-track sources Sco X-1, GX 349+2 and GX 17+2 based on Rossi-XTE observations using an extended accretion disk corona model. The results are compared with previous results for the Cyg X-2 like group: Cyg X-2, GX 340+0 and GX 5-1 and a general model for the Z-track sources proposed. On the normal branch, the Sco-like and Cyg-like sources are similar, the results indicating an increase of mass accretion rate Mdot between soft and hard apex, not as in the standard view that this increases around the Z. In the Cyg-like sources, increasing Mdot causes the neutron star temperature kT to increase from ~1 to ~2 keV. At the lower kT, the radiation pressure is small, but at the higher kT, the emitted flux of the neutron star is several times super-Eddington and the high radiation pressure disrupts the inner disk launching the relativistic jets observed on the upper normal and horizontal branches. In the Sco-like sources, the main physical difference is the high kT of more than 2 keV on all parts of the Z-track suggesting that jets are always possible, even on the flaring branch. The flaring branch in the Cyg-like sources is associated with release of energy on the neutron star consistent with unstable nuclear burning. The Sco-like sources are very different as flaring appears to be a combination of unstable burning and an increase of Mdot which makes flaring much stronger. Analysis of 15 years or RXTE ASM data on all 6 classic Z-track sources shows the high rate and strength of flaring in the Sco-like sources suggesting that continual release of energy heats the neutron star causing the high kT. A Sco X-1 observation with unusually little flaring supports this. GX 17+2 appears to be transitional between the Cyg and Sco-like types. Our results do not support the suggestion that Cyg or Sco-like nature is determined by luminosity.