Title: Project 1640 Observations of the White Dwarf HD 114174 B Author: E. Bacchus, I. R. Parry, R. Oppenheimer, J. Aguilar, C. Beichman, D. Brenner, R. Burruss, E. Cady, S. Luszcz-Cook, J. Crepp, R. Dekany, A. Gianninas, L. Hillenbrand, M. Kilic, D. King, T. G. Lockhart, C. T. Matthews, R. Nilsson, L. Pueyo, E. L. Rice, L. C. Roberts Jr., A. Sivaramakrishnan, R. Soummer, G. Vasisht, A. Veicht, C. Zhai, N. T. Zimmerman
We present the first near infra-red spectrum of the faint white dwarf companion HD 114174 B, obtained with Project 1640. Our spectrum, covering the Y, J and H bands, combined with previous TRENDS photometry measurements, allows us to place further constraints on this companion. We suggest two possible scenarios; either this object is an old, low mass, cool H atmosphere white dwarf with Teff ~ 3800 K or a high mass white dwarf with Teff > 6000 K, potentially with an associated cool (Teff ~ 700 K) brown dwarf or debris disk resulting in an infra-red excess in the L band. We also provide an additional astrometry point for 2014 June 12 and use the modelled companion mass combined with the RV and direct imaging data to place constraints on the orbital parameters for this companion.
Title: Mid-Infrared High-Contrast Imaging of HD 114174 B : An Apparent Age Discrepancy in a "Sirius-Like" Binary System Author: Christopher T. Matthews, Justin R. Crepp, Andrew Skemer, Philip M. Hinz, Alexandros Gianninas, Mukremin Kilic, Michael Skrutskie, Vanessa P. Bailey, Denis Defrere, Jarron Leisenring, Simone Esposito, Alfio Puglisi
We present new observations of the faint "Sirius-like" companion discovered to orbit HD 114174. Previous attempts to image HD 114174 B at mid-infrared wavelengths using NIRC2 at Keck have resulted in a non-detection. Our new L'-band observations taken with the Large Binocular Telescope and LMIRCam recover the companion (deltaL = 10.15 ± 0.15 mag, rho = 0.675'' ± 0.016'') with a high signal-to-noise ratio (10 sigma). This measurement represents the deepest L' high-contrast imaging detection at sub-arcsecond separations to date, including extrasolar planets. We confirm that HD 114174 B has near-infrared colors consistent with the interpretation of a cool white dwarf (J-L' = 0.76 ± 0.19 mag, K-L' = 0.64 ± 0.20). New model fits to the object's spectral energy distribution indicate a temperature Teff = 4260 ± 360 K, surface gravity log g = 7.94 ± 0.03, a cooling age tc =7.8 Gyr, and mass M = 0.54 ± 0.01 solar masses. We find that the cooling age given by theoretical atmospheric models do not agree with the age of HD 114174 A derived from both isochronological and gyrochronological analyses. We speculate on possible scenarios to explain the apparent age discrepancy between the primary and secondary. HD 114174 B is a nearby benchmark white dwarf that will ultimately enable a dynamical mass estimate through continued Doppler and astrometric monitoring. Efforts to characterize its physical properties in detail will test theoretical atmospheric models and improve our understanding of white dwarf evolution, cooling, and progenitor masses.