核心概念
SRGe J194401.8+284452 is an intermediate polar cataclysmic variable with an orbital period of about 1.5 hours, exhibiting transitions between high and low luminosity states, and is unlikely to be associated with the gamma-ray source 4FGL J1943.9+2841.
摘要
Bibliographic Information:
Kolbin, A. I., Karpova, A.V., Suslikov, M.V., et al. (2024). SRGe J194401.8+284452 —– an X-ray Cataclysmic Variable in the Field of the Gamma-Ray Source 4FGL J1943.9+2841. Astronomy Letters, 50(6), 351–372.
Research Objective:
This research paper aims to determine the nature of the X-ray source SRGe J194401.8+284452 and investigate its potential association with the gamma-ray source 4FGL J1943.9+2841.
Methodology:
The researchers conducted multi-wavelength spectral and photometric studies using data from various telescopes, including eROSITA, Swift, BTA, RTT-150, and OAN-SPM. They analyzed optical, UV, and X-ray data, including light curves, spectra, and Doppler tomograms, to characterize the source's properties and variability.
Key Findings:
- SRGe J194401.8+284452 is a cataclysmic variable (CV) with an orbital period of approximately 1.5 hours.
- The system exhibits transitions between high and low luminosity states, simultaneously observed in optical, UV, and X-ray wavelengths, suggesting changes in the accretion rate.
- Regular optical pulsations with a period of ~8 minutes in the low state are likely associated with the white dwarf's spin.
- The white dwarf's mass is constrained to 0.3-0.9 solar masses, and its temperature in the low state is estimated to be 14750 ± 1250 K.
- The donor star's mass is estimated to be ≤0.08 ± 0.01 solar masses.
Main Conclusions:
- SRGe J194401.8+284452 is classified as an intermediate polar cataclysmic variable.
- The study finds it highly unlikely that SRGe J194401.8+284452 is associated with the gamma-ray source 4FGL J1943.9+2841.
Significance:
This research provides valuable insights into the properties and behavior of intermediate polar cataclysmic variables. It contributes to our understanding of accretion processes in binary systems and helps refine the classification of X-ray sources.
Limitations and Future Research:
The study acknowledges limitations due to the limited number of counts in the low-state X-ray spectrum. Future research with deeper observations could further constrain the system parameters and investigate the accretion dynamics in more detail.
统计
The brightness of the source is about 17 and 20 mag in the optical range in the high and low states, respectively.
The brightness of the source is about 5×10−12 and 5×10−13 erg/cm2/s in the 0.3 – 10 keV range in the high and low states, respectively.
The orbital period of the system is about 1.5 hours.
The mass of the white dwarf is constrained to 0.3 – 0.9 M⊙.
The temperature of the white dwarf in the low state is 14750 ± 1250 K.
The mass of the donor star is ≤0.08 ± 0.01 M⊙.
In the low state, regular optical pulsations with an amplitude of 0.2 mag and a period of 8 min were detected.