Exploring the directly imaged HD 1160 system through spectroscopic characterization and high-cadence variability monitoring

Ben J. Sutlieff*, Jayne L. Birkby, Jordan M. Stone, Annelotte Derkink, Frank Backs, David S. Doelman, Matthew A. Kenworthy, Alexander J. Bohn, Steve Ertel, Frans Snik, Charles E. Woodward, Ilya Ilyin, Andrew J. Skemer, Jarron M. Leisenring, Klaus G. Strassmeier, Ji Wang, David Charbonneau, Beth A. Biller

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

Abstract / Description of output

The time variability and spectra of directly imaged companions provide insight into their physical properties and atmospheric dynamics. We present follow-up R ∼40 spectrophotometric monitoring of red companion HD 1160 B at 2.8-4.2 μm using the double-grating 360° vector Apodizing Phase Plate (dgvAPP360) coronagraph and ALES integral field spectrograph on the Large Binocular Telescope Interferometer. We use the recently developed technique of gvAPP-enabled differential spectrophotometry to produce differential light curves for HD 1160 B. We reproduce the previously reported ∼3.2 h periodic variability in archival data, but detect no periodic variability in new observations taken the following night with a similar 3.5 per cent level precision, suggesting rapid evolution in the variability of HD 1160 B. We also extract complementary spectra of HD 1160 B for each night. The two are mostly consistent, but the companion appears fainter on the second night between 3.0-3.2 μm. Fitting models to these spectra produces different values for physical properties depending on the night considered. We find an effective temperature Teff = K on the first night, consistent with the literature, but a cooler Teff = K on the next. We estimate the mass of HD 1160 B to be 16-81 MJup, depending on its age. We also present R = 50 000 high-resolution optical spectroscopy of host star HD 1160 A obtained simultaneously with the PEPSI spectrograph. We reclassify its spectral type to A1 IV-V and measure its projected rotational velocity = km s-1. We thus highlight that gvAPP-enabled differential spectrophotometry can achieve repeatable few per cent level precision and does not yet reach a systematic noise floor, suggesting greater precision is achievable with additional data or advanced detrending techniques.

Original languageEnglish
Pages (from-to)2168-2189
Number of pages22
JournalMonthly Notices of the Royal Astronomical Society
Volume531
Issue number1
Early online date21 May 2024
DOIs
Publication statusPublished - 1 Jun 2024

Keywords / Materials (for Non-textual outputs)

  • brown dwarfs
  • infrared: planetary systems
  • instrumentation: high angular resolution
  • planets and satellites: Atmospheres
  • planets and satellites: detection
  • stars: individual: HD 1160

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