Stranger Things: A Grid-based Survey of Strange Modes in Post-Main Sequence Models
Abstract
We present a systematic survey of strange mode pulsations in Cepheids using MESA and for the linear stability analysis, MESA RSP. Our model grid spans 2-15\,M in mass and [Fe/H] = -0.95-0.17 (Z = 0.0015-0.0200) in metallicity, with four convective overshoot prescriptions. Strange modes were identified in a relatively small fraction (5-12.5 %) of models, occurring at npg = 5-9, with npg = 6-7 as the most frequent radial modes. No unstable solutions were identified beyond npg = 9, in contrast to earlier studies reporting strange modes at npg = 10-12. We quantified the duration of the instability crossing phase (τIS), the strange mode phase (τs), and their ratio Ps = τs / τIS. Toward higher masses, both τIS and τs decrease, yet their ratio shows no systematic trend with mass in models that include convective core overshoot. The absolute timescales for strange modes remain short, typically τs 104.5-106 years, while τIS is often an order of magnitude shorter, implying that these stars may spend a larger fraction of their life in the strange mode phase than in the instability strip itself. The extended duration of the strange mode phase may enhance the detectability of strange mode pulsators, provided that observational precision is sufficient to capture their low-amplitude variability. The predicted periods (0.6-6.3 days) are well covered by a single 27-day TESS sector, making strange mode pulsators potentially detectable with current space-based photometry, although blending with nearby sources may pose challenges.
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