What question did this study set out to answer?

The aim is to understand how clumping and corotating interaction regions affect the winds of Wolf-Rayet star WR 6.

March 2, 2026Open Access

Disentangling the Spectroscopic Signatures of Clumping and Corotating Interaction Regions in the Wolf–Rayet Star WR 6

Key Points

The aim is to understand how clumping and corotating interaction regions affect the winds of Wolf-Rayet star WR 6.
Analyzed high-resolution ESPaDOnS spectra of WR 6.
Used wavelet decomposition to isolate variability on different scales.
Conducted correlation analysis of spectral lines.
Clumping contributes 1% variability in line intensity.
Strong coherence found among He ii lines.
Weaker correlations observed in N v λ 4945 and He i λ 5876 lines, indicating differences in line-formation.

Abstract

Abstract Wolf–Rayet (WR) winds exhibit variability driven by small-scale clumping and large-scale corotating interaction regions (CIRs), but their interplay remains uncertain. Archival high-resolution ESPaDOnS spectra of WR 6 were analyzed using wavelet decomposition to isolate variability on different scales. Time variance spectrum diagnostics confirm that clumping contributes 1% variability relative to line intensity, consistent with empirical trends for WR stars. Correlation analysis reveals strong coherence among He ii lines, while the N v λ 4945 and He i λ 5876 lines display weaker or shifted correlations, reflecting differences in their line-formation regions relative to He ii . Models in which CIRs locally suppress clumping demonstrate that if such interactions occur, spectroscopic diagnostics remain inconclusive. These results provide direct evidence that CIRs and clumping can coexist in WR winds.

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Cite This Study

André-Nicolas Chené (Fri,) studied this question.

synapsesocial.com/papers/69a528b3f1e85e5c73bf0440 https://doi.org/https://doi.org/10.3847/1538-4357/ae4336

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