The First Infrared Portrait of A Solar-Like Host Star with Debris Disk: Pioneering High-Resolution H- and K-Band Spectroscopy of HD115617 with Comparative Optical Spectrum Analysis
Sena Aleyna Şentürk, Timur Şahin, Cenk Kayhan
TLDR
This paper presents the first high-resolution infrared portrait of a solar-like star with a debris disk, revealing temperature discrepancies between optical and NIR analyses.
Key contributions
- Conducted the first high-resolution near-infrared spectroscopic analysis of solar analog HD115617.
- Found a 250 K temperature discrepancy between optical (5500 K) and NIR (5750 K) spectral analyses.
- Confirmed HD115617 as a main-sequence solar-like star via asteroseismology and SED fitting (0.98 R_sun).
- Identified diverging age estimates (10.97 Gyr optical vs. 8.04 Gyr NIR) but no planetary formation chemical signature.
Why it matters
This study highlights critical challenges in multi-wavelength stellar characterization, particularly the discrepancies between optical and near-infrared analyses. Resolving these methodological systematics is crucial for accurately understanding stellar environments and could lead to new indirect methods for characterizing exoplanetary systems.
Original Abstract
We present the first high-resolution near-infrared spectroscopic analysis of the solar analog HD115617 (61 Virginis), complemented by optical spectroscopy, asteroseismology, and spectral energy distribution modeling. Using ESPRESSO and IGRINS spectra with a newly calibrated NIR line list, we derived atmospheric parameters that revealed notable differences between spectral regions: the optical analysis yielded Teff = 5500 +- 140 K, log g = 4.40 +- 0.16, and solar metallicity, whereas the NIR yielded Teff = 5750 +- 140 K. We tested this 250 K discrepancy using the independent line depth ratio (LDR) method for both spectra. When applied to the optical lines, LDR confirmed the cooler scale (5553 +- 73 K); for the NIR lines, it provided an intermediate temperature (5636 +- 15 K). Asteroseismic scaling with TESS data yielded a radius of 0.98 +- 0.09 R_sun, consistent with SED fitting and confirming the star's main-sequence solar-like status. However, the age estimates diverged between methods, with optical and NIR analyses yielding ages of 10.97 and 8.04 Gyr, respectively. Critically, a condensation temperature analysis revealed no significant trend, confirming the star's bulk solar-like composition and showing no chemical signature of planetary formation processes. Kinematic diagnostics place HD115617 in the thin Galactic disk, with a birth radius of approximately 5.7-8.0 kpc. Although the spectral differences may be linked to the star's multi-planet system or debris disk, our analysis highlights the critical challenge of distinguishing such effects from methodological systematics in multi-wavelength studies. Consequently, we propose a systematic, homogeneous optical-NIR survey of solar-type stars to resolve this ambiguity, which could ultimately inform novel indirect methods for characterizing stellar environments.
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