Your search keyword '"Debes, John H."' showing total 337 results

1. Deepest limits on scattered light emission from the Epsilon Eridani inner debris disk with HST/STIS

Author

M., Sai Krishanth P., Douglas, Ewan S., Anche, Ramya M., Hom, Justin, Cahoy, Kerri L., Debes, John H., Jang-Condell, Hannah, Rebollido, Isabel, Ren, Bin B., Stark, Christopher C., Thompson, Robert, and Xin, Yinzi

Subjects

Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

Epsilon Eridani ($\epsilon$ Eri) is one of the first debris disk systems detected by the Infrared Astronomical Satellite (IRAS). However, the system has thus far eluded detection in scattered light with no components having been directly imaged. Its similarity to a relatively young Solar System combined with its proximity makes it an excellent candidate to further our understanding of planetary system evolution. We present a set of coronagraphic images taken using the Space Telescope Imaging Spectrograph (STIS) coronagraph on the Hubble space telescope at a small inner working angle to detect a predicted warm inner debris disk inside 1". We used three different post-processing approaches; Non-negative Matrix Factorization (NMF), Karhunen-Lo`eve Image Processing (KLIP), and Classical reference differential imaging (RDI), to best optimize reference star subtraction, and find that NMF performed the best overall while KLIP produced the absolute best contrast inside 1". We present limits on scattered light from warm dust, with constraints on surface brightness at 6 mJy/as$^2$ at our inner working angle of 0.6". We also place a constraint of 0.5 mJy/as$^2$ outside 1", which gives us an upper limit on the brightness for outer disks and substellar companions. Finally, we calculated an upper limit on the dust albedo at $\omega <$ 0.487., Comment: 13+2 pages, 7+2 figures; Accepted for publication in the Astronomical Journal

Published

2024

2. 3C 273 Host Galaxy with Hubble Space Telescope Coronagraphy

Author

Ren, Bin B., Fogarty, Kevin, Debes, John H., Meyer, Eileen T., Mo, Youbin, Mawet, Dimitri, Perrin, Marshall D., Ogle, Patrick M., and Sahlmann, Johannes

Subjects

Astrophysics - Astrophysics of Galaxies, Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

The close-in regions of bright quasars' host galaxies have been difficult to image due to the overwhelming light from the quasars. With coronagraphic observations in visible light using the Space Telescope Imaging Spectrograph (STIS) on the Hubble Space Telescope, we removed 3C 273 quasar light using color-matching reference stars. The observations revealed the host galaxy from 60" to 0.2" with nearly full angular coverage. Isophote modeling revealed a new core jet, a core blob, and multiple smaller-scale blobs within 2.5". The blobs could potentially be satellite galaxies or infalling materials towards the central quasar. Using archival STIS data, we constrained the apparent motion of its large scale jets over a 22 yr timeline. By resolving the 3C 273 host galaxy with STIS, our study validates the coronagraph usage on extragalactic sources in obtaining new insights into the central ~kpc regions of quasar hosts., Comment: 13 pages, 11 figures, 2 tables, A&A Letters accepted

Published

2024

3. A Uniform Analysis of Debris Disks with the Gemini Planet Imager I: An Empirical Search for Perturbations from Planetary Companions in Polarized Light Images

Author

Crotts, Katie A., Matthews, Brenda C., Duchêne, Gaspard, Esposito, Thomas M., Dong, Ruobing, Hom, Justin, Oppenheimer, Rebecca, Rice, Malena, Wolff, Schuyler G., Chen, Christine H., Ó, Clarissa R. Do, Kalas, Paul, Lewis, Briley L., Weinberger, Alycia J., Wilner, David J., Ammons, Mark, Arriaga, Pauline, De Rosa, Robert J., Debes, John H., Fitzgerald, Michael P., Gonzales, Eileen C., Hines, Dean C., Hinkley, Sasha, Hughes, A. Meredith, Kolokolova, Ludmilla, Lee, Eve J., López, Ronald A., Macintosh, Bruce, Mazoyer, Johan, Metchev, Stanimir, Millar-Blanchaer, Maxwell A., Nielsen, Eric L., Patience, Jenny, Perrin, Marshall D., Pueyo, Laurent, Rantakyrö, Fredrik T., Ren, Bin B., Schneider, Glenn, Soummer, Remi, and Stark, Christopher C.

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

The Gemini Planet Imager (GPI) has excelled in imaging debris disks in the near-infrared. The GPI Exoplanet Survey (GPIES) imaged twenty-four debris disks in polarized $H$-band light, while other programs observed half of these disks in polarized $J$- and/or $K1$-bands. Using these data, we present a uniform analysis of the morphology of each disk to find asymmetries suggestive of perturbations, particularly those due to planet-disk interactions. The multi-wavelength surface brightness, the disk color and geometry permit identification of any asymmetries such as warps or disk offsets from the central star. We find that nineteen of the disks in this sample exhibit asymmetries in surface brightness, disk color, disk geometry, or a combination of the three, suggesting that for this sample, perturbations, as seen in scattered light, are common. The relationship between these perturbations and potential planets in the system are discussed. We also explore correlations among stellar temperatures, ages, disk properties, and observed perturbations. We find significant trends between the vertical aspect ratio and the stellar temperature, disk radial extent, and the dust grain size distribution power-law, $q$. We also confirm a trend between the disk color and stellar effective temperature, where the disk becomes increasingly red/neutral with increasing temperature. Such results have important implications on the evolution of debris disk systems around stars of various spectral types., Comment: 46 pages, 20 figures, 6 tables, accepted for publication in ApJ

Published

2023

4. Simulation of high-contrast polarimetric observations of debris disks with the Roman Coronagraph Instrument

Author

Anche, Ramya M, Douglas, Ewan, Milani, Kian, Ashcraft, Jaren, Millar-Blanchaer, Maxwell A., Debes, John H, Milli, Julien, and Hom, Justin

Subjects

Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

The Nancy Grace Roman Space Telescope Coronagraph Instrument will enable the polarimetric imaging of debris disks and inner dust belts in the optical and near-infrared wavelengths, in addition to the high-contrast polarimetric imaging and spectroscopy of exoplanets. The Coronagraph uses two Wollaston prisms to produce four orthogonally polarized images and is expected to measure the polarization fraction with measurement errors < 3% per spatial resolution element. To simulate the polarization observations through the Hybrid Lyot Coronagraph (HLC) and Shaped Pupil Coronagraph (SPC), we model disk scattering, the coronagraphic point-response function, detector noise, speckles, jitter, and instrumental polarization and calculate the Stokes parameters. To illustrate the potential for discovery and a better understanding of known systems with both the HLC and SPC modes, we model the debris disks around Epsilon Eridani and HR 4796A, respectively. For Epsilon Eridani, using astrosilicates with 0.37+/-0.01 as the peak input polarization fraction in one resolution element, we recover the peak disk polarization fraction of 0.33+/-0.01. Similarly, for HR 4796A, for a peak input polarization fraction of 0.92+/-0.01, we obtain the peak output polarization fraction as 0.80+/-0.03. The Coronagraph design meets the required precision, and forward modeling is needed to accurately estimate the polarization fraction., Comment: 21 pages, 13 figures, Accepted in Publications of the Astronomical Society of the Pacific

Published

2023

5. A Companion in V1247 Ori Supported by Spiral Arm Pattern Motion

Author

Ren, Bin B., Xie, Chen, Benisty, Myriam, Dong, Ruobing, Bae, Jaehan, Stolker, Tomas, van Holstein, Rob G., Debes, John H., Garufi, Antonio, Ginski, Christian, and Kraus, Stefan

Subjects

Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Solar and Stellar Astrophysics

Abstract

While there have been nearly two dozen of spiral arms detected from planet-forming disks in near-infrared scattered light, none of their substellar drivers have been confirmed. By observing spiral systems in at least two epochs spanning multiple years, and measuring the motion of the spirals, we can distinguish the cause of the spirals, and locate the orbits of the driving planets if they trigger the spirals. Upon a recent validation of this approach using the co-motion between a stellar companion and a spiral, we obtained a second epoch observation for the spiral system in the disk of V1247 Ori in the $H$-band polarized scattered light using VLT/SPHERE/IRDIS. Combining our observations with archival IRDIS data, we established a $4.8$ yr timeline to constrain the V1247 Ori spiral motion. We obtained a pattern speed of $0.40^{\circ} \pm 0.09^{\circ}$ yr$^{-1}$ for the north-east spiral. This corresponds to an orbital period of $900\pm200$ yr, and thus the semi-major axis of the hidden planetary driver is $118\pm19$ au for a 2.0 $\pm$ 0.1 M$_\odot$ central star. The location agrees with the gap in ALMA dust continuum observations, providing joint support for the existence of a companion driving the scattered-light spirals while carving a millimeter gap. With an angular separation of 0.29" $\pm$ 0.05", this hidden companion is an ideal target for JWST imaging., Comment: Accepted for publication in Astronomy and Astrophysics; 6 pages, 5 figures

Published

2023

6. Debris Disk Color with the Hubble Space Telescope

Author

Ren, Bin B., Rebollido, Isabel, Choquet, Élodie, Zhou, Wen-Han, Perrin, Marshall D., Schneider, Glenn, Milli, Julien, Wolff, Schuyler G., Chen, Christine H., Debes, John H., Hagan, J. Brendan, Hines, Dean C., Millar-Blanchaer, Maxwell A., Pueyo, Laurent, Roberge, Aki, Serabyn, Eugene, and Soummer, Rémi

Subjects

Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Solar and Stellar Astrophysics

Abstract

Multi-wavelength scattered light imaging of debris disks may inform dust properties including typical size and mineral composition. Existing studies have investigated a small set of individual systems across a variety of imaging instruments and filters, calling for uniform comparison studies to systematically investigate dust properties. We obtain the surface brightness of dust particles in debris disks by post-processing coronagraphic imaging observations, and compare the multi-wavelength reflectance of dust. For a sample of resolved debris disks, we perform a systematic analysis on the reflectance properties of their birth rings. We reduced the visible and near-infrared images of 23 debris disk systems hosted by A through M stars using two coronagraphs onboard the Hubble Space Telescope: the STIS instrument observations centering at 0.58 $\mu$m, and the NICMOS instrument at 1.12 $\mu$m or 1.60 $\mu$m. For proper recovery of debris disks, we used classical reference differential imaging for STIS, and adopted non-negative matrix factorization with forward modeling for NICMOS. By dividing disk signals by stellar signals to take into account of intrinsic stellar color effects, we systematically obtained and compared the reflectance of debris birth rings at ~90 deg scattering angle. Debris birth rings typically exhibit a blue color at ~90 deg scattering angle. As the stellar luminosity increases, the color tends to be more neutral. A likely L-shaped color-albedo distribution indicates a clustering of scatterer properties. The observed color trend correlates with the expected blow-out size of dust particles. The color-albedo clustering likely suggests different populations of dust in these systems. More detailed radiative transfer models with realistic dust morphology will contribute to explaining the observed color and color-albedo distribution of debris systems., Comment: 17 pages, 8 figures, 3 tables. A&A accepted

Published

2023

7. Discovery of a resolved white dwarf-brown dwarf binary with a small projected separation: SDSS J222551.65+001637.7AB

Author

French, Jenni R., Casewell, Sarah L., Dupuy, Trent J., Debes, John H., Manjavacas, Elena, Martin, Emily C., and Xu, Siyi

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Earth and Planetary Astrophysics

Abstract

We present the confirmation of SDSS J222551.65+001637.7AB as a closely separated, resolved, white dwarf-brown dwarf binary. We have obtained spectroscopy from GNIRS and seeing-limited $K_s$-band imaging from NIRI on Gemini North. The target is spatially resolved into its constituent components: a 10926$ \pm$ 246 K white dwarf, with log $g = 8.214 \pm 0.168$ and a mass of 0.66$^{+0.11}_{-0.06}$ M$_{\odot}$, and an L4 brown dwarf companion, which are separated by $0.9498 \pm 0.0022$". We derive the fundamental properties of the companion from the Sonora-Bobcat evolutionary models, finding a mass of $25-53$ M$_{\text{Jup}}$ and a radius of $0.101-0.128$ R$_{\odot}$ for the brown dwarf, at a confidence level of 1$\sigma$. We use wdwarfdate to determine the age of the binary as $1.97^{+4.41}_{-0.76}$ Gyr. A kinematic analysis shows that this binary is likely a member of the thick disc. The distance to the binary is 218$^{+14}_{-13}$ pc, and hence the projected separation of the binary is 207$^{+13}_{-12}$ AU. Whilst the white dwarf progenitor was on the main sequence the binary separation would have been $69 \pm 5$ AU. SDSS J222551.65+001637.7AB is the third closest spatially resolved white dwarf-brown dwarf binary after GD 165AB and PHL 5038AB., Comment: 9 pages, 6 figures. Accepted for publication in MNRAS

Published

2023

8. Simulations of polarimetric observations of debris disks through the Roman Coronagraph Instrument

Author

Anche, Ramya Manjunath, Douglas, Ewan S., Milani, Kian, Ashcraft, Jaren, and Debes, John H

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Earth and Planetary Astrophysics

Abstract

The Roman coronagraph instrument will demonstrate high-contrast imaging technology, enabling the imaging of faint debris disks, the discovery of inner dust belts, and planets. Polarization studies of debris disks provide information on dust grains' size, shape, and distribution. The Roman coronagraph uses a polarization module comprising two Wollaston prism assemblies to produce four orthogonally polarized images ($I_{0}$, $I_{90}$, $I_{45}$, and $I_{135}$), each measuring 3.2 arcsecs in diameter and separated by 7.5 arcsecs in the sky. The expected RMS error in the linear polarization fraction measurement is 1.66\% per resolution element of 3 by 3 pixels. We present a mathematical model to simulate the polarized intensity images through the Roman CGI, including the instrumental polarization and other uncertainties. We use disk modeling software, MCFOST, to model $q$, $u$, and polarization intensity of the debris disk, Epsilon-Eridani. The polarization intensities are convolved with the coronagraph throughput incorporating the PSF morphology. We include model uncertainties, detector noise, speckle noise, and jitter. The final polarization fraction of 0.4$\pm$0.0251 is obtained after the post-processing., Comment: 10 pages, 11 figures, Proc. SPIE Astronomical Telescopes + Instrumentation 2022, Montreal, Canada

Published

2022

9. Disks in Nearby Young Stellar Associations Found Via Virtual Reality

Author

Higashio, Susan, Kuchner, Marc J., Silverberg, Steven M., Brandt, Matthew A., Grubb, Thomas G., Gagné, Jonathan, Debes, John H., Schlieder, Joshua, Wisniewski, John P., Slocum, Stewart, Bans, Alissa S., Bhattacharjee, Shambo, Biggs, Joseph R., Bosch, Milton K. D., Cernohous, Tadeas, Doll, Katharina, Luca, Hugo A. Durantini, Enachioaie, Alexandru, Griffith Sr., Phillip, Hamilton, Joshua, Holden, Jonathan, Hyogo, Michiharu, Jung, Dawoon, Lau, Lily, Piipuu, Fernanda Piñiero Art, Stiller, Lisa, and Collaboration, Disk Detective

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Earth and Planetary Astrophysics

Abstract

The Disk Detective citizen science project recently released a new catalog of disk candidates found by visual inspection of images from NASA's Wide-Field Infrared Survey Explorer (WISE) mission and other surveys. We applied this new catalog of well-vetted disk candidates to search for new members of nearby young stellar associations (YSAs) using a novel technique based on Gaia data and virtual reality (VR). We examined AB Doradus, Argus, $\beta$ Pictoris, Carina, Columba, Octans-Near, Tucana-Horologium, and TW Hya by displaying them in VR together with other nearby stars, color-coded to show infrared excesses found via Disk Detective. Using this method allows us to find new association members in mass regimes where isochrones are degenerate. We propose ten new YSA members with infrared excesses: three of AB Doradus (HD 44775, HD 40540 and HD 44510), one of $\beta$ Pictoris (HD 198472), two of Octans-Near (HD 157165 and BD+35 2953), and four disk-hosting members of a combined population of Carina, Columba and Tucana-Horologium: CPD-57 937, HD 274311, HD 41992, and WISEA J092521.90-673224.8. This last object (J0925) appears to be an extreme debris disk with a fractional infrared luminosity of $3.7 \times 10^{-2}$. We also propose two new members of AB Doradus that do not show infrared excesses: TYC 6518-1857-1 and CPD-25 1292. We find HD 15115 appears to be a member of Tucana-Horologium rather than $\beta$ Pictoris. We advocate for membership in Columba-Carina of HD 30447, CPD-35 525, and HD 35841. Finally, we propose that three M dwarfs, previously considered members of Tuc-Hor are better considered a separate association, tentatively called ``Smethells 165''., Comment: 26 pages; 17 figures, 3 tables. Accepted for publication in AAS Journals

Published

2022

10. A Wide Planetary Mass Companion Discovered Through the Citizen Science Project Backyard Worlds: Planet 9

Author

Faherty, Jacqueline K., Gagne, Jonathan, Popinchalk, Mark, Vos, Johanna M., Burgasser, Adam J., Schumann, Jorg, Schneider, Adam C., Kirkpatrick, J. Davy, Meisner, Aaron M., Kuchner, Marc J., Gagliuffi, Daniella C. Bardalez, Marocco, Federico, Caselden, Dan, Gonzales, Eileen C., Rothermich, Austin, Casewell, Sarah L., Debes, John H., Aganze, Christian, Ayala, Andrew, Hsu, Chih-Chun, Cooper, William J., Smart, R. L., Gerasimov, Roman, Theissen, Christopher A., Worlds, The Backyard, and Collaboration, Planet 9

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Earth and Planetary Astrophysics

Abstract

Through the Backyard Worlds: Planet 9 citizen science project we discovered a late-type L dwarf co-moving with the young K0 star BD+60 1417 at a projected separation of 37" or 1662 AU. The secondary - CWISER J124332.12+600126.2 (W1243) - is detected in both the CatWISE2020 and 2MASS reject tables. The photometric distance and CatWISE proper motion both match that of the primary within ~1sigma and our estimates for chance alignment yield a zero probability. Follow-up near infrared spectroscopy reveals W1243 to be a very red 2MASS color(J-Ks=2.72), low-surface gravity source that we classify as L6 - L8gamma. Its spectral morphology strongly resembles that of confirmed late-type L dwarfs in 10 - 150 Myr moving groups as well as that of planetary mass companions. The position on near- and mid-infrared color-magnitude diagrams indicates the source is redder and fainter than the field sequence, a telltale sign of an object with thick clouds and a complex atmosphere. For the primary we obtained new optical spectroscopy and analyzed all available literature information for youth indicators. We conclude that the Li I abundance, its loci on color-magnitude and color-color diagrams, and the rotation rate revealed in multiple TESS sectors are all consistent with an age of 50 - 150 Myr. Using our re-evaluated age of the primary, the Gaia parallax along with the photometry and spectrum for W1243 we find a Teff=1303+/-31 K, logg=4.3+/-0.17 cm s-2, and a mass of 15+/-5 MJup. We find a physical separation of ~1662 AU and a mass ratio of ~0.01 for this system. Placing it in context with the diverse collection of binary stars, brown dwarf and planetary companions, the BD+60 1417 system falls in a sparsely sampled area where the formation pathway is difficult to assess., Comment: Accepted for publication in ApJ

Published

2021

11. Velocity-imaging the rapidly precessing planetary disc around the white dwarf HE 1349-2305 using Doppler tomography

Author

Manser, Christopher J., Dennihy, Erik, Gänsicke, Boris T., Debes, John H., Fusillo, Nicola P. Gentile, Hermes, J. J., Hollands, Mark, Izquierdo, Paula, Kaiser, B. C., Marsh, T. R., Reding, Joshua S., Rodríguez-Gil, Pablo, Veras, Dimitri, and Wilson, David J.

Subjects

Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Solar and Stellar Astrophysics

Abstract

The presence of planetary material in white dwarf atmospheres, thought to be accreted from a dusty debris disc produced via the tidal disruption of a planetesimal, is common. Approximately five per cent of these discs host a co-orbital gaseous component detectable via emission from atomic transitions - usually the 8600 Angstrom CaII triplet. These emission profiles can be highly variable in both morphology and strength. Furthermore, the morphological variations in a few systems have been shown to be periodic, likely produced by an apsidally precessing asymmetric disc. Of the known gaseous debris discs, that around HE1349-2305 has the most rapidly evolving emission line morphology, and we present updated spectroscopy of the CaII triplet of this system. The additional observations show that the emission line morphologies vary periodically and consistently, and we constrain the period to two aliases of 459$\pm$3d and 502$\pm$3d. We produce images of the CaII triplet emission from the disc in velocity space using Doppler tomography - only the second such imaging of a white dwarf debris disc. We suggest that the asymmetric nature of these velocity images is generated by gas moving on eccentric orbits with radially-dependent excitation conditions via photo-ionisation from the white dwarf. We also obtained short-cadence (~ 4 min) spectroscopy to search for variability on the time-scale of the disc's orbital period (~ hours) due to the presence of a planetesimal, and rule out variability at a level of ~ 1.4 per cent., Comment: 14 Pages, 10 Figures, accepted for publication in MNRAS

Published

2021

12. Ross 19B: An Extremely Cold Companion Discovered via the Backyard Worlds: Planet 9 Citizen Science Project

Author

Schneider, Adam C., Meisner, Aaron M., Gagne, Jonathan, Faherty, Jacqueline K., Marocco, Federico, Burgasser, Adam J., Kirkpatrick, J. Davy, Kuchner, Marc J., Gramaize, Leopold, Rothermich, Austin, Brooks, Hunter, Vrba, Frederick J., Gagliuffi, Daniella Bardalez, Caselden, Dan, Cushing, Michael C., Gelino, Christopher R., Line, Michael R., Casewell, Sarah L., Debes, John H., Aganze, Christian, Ayala, Andrew, Gerasimov, Roman, Gonzales, Eileen C., Hsu, Chih-Chun, Kiman, Rocio, Popinchalk, Mark, Theissen, Christopher, Worlds, The Backyard, and Collaboration, Planet 9

Subjects

Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Solar and Stellar Astrophysics

Abstract

Through the Backyard Worlds: Planet 9 citizen science project, we have identified a wide-separation ($\sim$10', $\sim$9900 au projected) substellar companion to the nearby ($\sim$17.5 pc), mid-M dwarf Ross 19. We have developed a new formalism for determining chance alignment probabilities based on the BANYAN $\Sigma$ tool, and find a 100% probability that this is a physically associated pair. Through a detailed examination of Ross 19A, we find that the system is metal-poor ([Fe/H]=$-$0.40$\pm$0.12) with an age of 7.2$^{+3.8}_{-3.6}$ Gyr. Combining new and existing photometry and astrometry, we find that Ross 19B is one of the coldest known wide-separation companions, with a spectral type on the T/Y boundary, an effective temperature of 500$^{+115}_{-100}$ K, and a mass in the range 15-40 $M_{\rm Jup}$. This new, extremely cold benchmark companion is a compelling target for detailed characterization with future spectroscopic observations using facilities such as the Hubble Space Telescope or James Webb Space Telescope., Comment: Accepted to ApJ

Published

2021

13. New Candidate Extreme T Subdwarfs from the Backyard Worlds: Planet 9 Citizen Science Project

Author

Meisner, Aaron M., Schneider, Adam C., Burgasser, Adam J., Marocco, Federico, Line, Michael R., Faherty, Jacqueline K., Kirkpatrick, J. Davy, Caselden, Dan, Kuchner, Marc J., Gelino, Christopher R., Gagne, Jonathan, Theissen, Christopher, Gerasimov, Roman, Aganze, Christian, Hsu, Chih-Chun, Wisniewski, John P., Casewell, Sarah L., Gagliuffi, Daniella C. Bardalez, Logsdon, Sarah E., Eisenhardt, Peter R. M., Allers, Katelyn, Debes, John H., Allen, Michaela B., Andersen, Nikolaj Stevnbak, Goodman, Sam, Gramaize, Leopold, Martin, David W., Sainio, Arttu, Cushing, Michael C., Worlds, The Backyard, and Collaboration, Planet 9

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Earth and Planetary Astrophysics

Abstract

Schneider et al. (2020) presented the discovery of WISEA J041451.67-585456.7 and WISEA J181006.18-101000.5, which appear to be the first examples of extreme T-type subdwarfs (esdTs; metallicity <= -1 dex, T_eff <= 1400 K). Here we present new discoveries and follow-up of three T-type subdwarf candidates, with an eye toward expanding the sample of such objects with very low metallicity and extraordinarily high kinematics, properties that suggest membership in the Galactic halo. Keck/NIRES near-infrared spectroscopy of WISEA J155349.96+693355.2, a fast-moving object discovered by the Backyard Worlds: Planet 9 citizen science project, confirms that it is a mid-T subdwarf. With H_W2 = 22.3 mag, WISEA J155349.96+693355.2 has the largest W2 reduced proper motion among all spectroscopically confirmed L and T subdwarfs, suggesting that it may be kinematically extreme. Nevertheless, our modeling of the WISEA J155349.96+693355.2 near-infrared spectrum indicates that its metallicity is only mildly subsolar. In analyzing the J155349.96+693355.2 spectrum, we present a new grid of low-temperature, low-metallicity model atmosphere spectra. We also present the discoveries of two new esdT candidates, CWISE J073844.52-664334.6 and CWISE J221706.28-145437.6, based on their large motions and colors similar to those of the two known esdT objects. Finding more esdT examples is a critical step toward mapping out the spectral sequence and observational properties of this newly identified population., Comment: accepted for publication in ApJ; models available at https://doi.org/10.7910/DVN/SJRXUO

Published

2021

14. A Layered Debris Disk around M Star TWA 7 in Scattered Light

Author

Ren, Bin, Choquet, Élodie, Perrin, Marshall D., Mawet, Dimitri P., Chen, Christine H., Milli, Julien, Debes, John H., Rebollido, Isabel, Stark, Christopher C., Hagan, J. B., Hines, Dean C., Millar-Blanchaer, Maxwell A., Pueyo, Laurent, Roberge, Aki, Schneider, Glenn H., Serabyn, Eugene, Soummer, Rémi, and Wolff, Schuyler G.

Subjects

Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Solar and Stellar Astrophysics

Abstract

We have obtained Hubble Space Telescope (HST) coronagraphic observations of the circumstellar disk around M star TWA 7 using the STIS instrument in visible light. Together with archival observations including HST/NICMOS using the F160W filter and Very Large Telescope/SPHERE at $H$-band in polarized light, we investigate the system in scattered light. By studying this nearly face-on system using geometric disk models and Henyey--Greenstein phase functions, we report new discovery of a tertiary ring and a clump. We identify a layered architecture: three rings, a spiral, and an ${\approx}150$ au$^2$ elliptical clump. The most extended ring peaks at $28$ au, and the other components are on its outskirts. Our point source detection limit calculations demonstrate the necessity of disk modeling in imaging fainter planets. Morphologically, we witness a clockwise spiral motion, and the motion pattern is consistent with both solid body and local Keplerian; we also observe underdensity regions for the secondary ring that might result from mean motion resonance or moving shadows: both call for re-observations to determine their nature. Comparing multi-instrument observations, we obtain blue STIS-NICMOS color, STIS-SPHERE radial distribution peak difference for the tertiary ring, and high SPHERE-NICMOS polarization fraction; these aspects indicate that TWA 7 could retain small dust particles. By viewing the debris disk around M star TWA 7 at a nearly face-on vantage point, our study allows for the understanding of such disks in scattered light in both system architecture and dust property., Comment: 20 pages, 10 figures, 3 tables, ApJ accepted. Data and animation available in the ancillary folder. Citation fixed, author list updated

Published

2021

15. A Deep Polarimetric Study of the Asymmetrical Debris Disk HD 106906

Author

Crotts, Katie A., Matthews, Brenda C., Esposito, Thomas M., Duchêne, Gaspard, Kalas, Paul, Chen, Christine H., Arriaga, Pauline, Millar-Blanchaer, Maxwell A., Debes, John H., Draper, Zachary H., Fitzgerald, Michael P., Hom, Justin, MacGregor, Meredith A., Mazoyer, Johan, Patience, Jennifer, Rice, Malena, Weinberger, Alycia J., Wilner, David J., and Wolff, Schuyler

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

HD 106906 is a young, binary stellar system, located in the Lower Centaurus Crux (LCC) group. This system is unique among discovered systems in that it contains an asymmetrical debris disk, as well as an 11 M$_{Jup}$ planet companion, at a separation of $\sim$735 AU. Only a handful of other systems are known to contain both a disk and directly imaged planet, where HD 106906 is the only one in which the planet has apparently been scattered. The debris disk is nearly edge on, and extends roughly to $>$500 AU, where previous studies with HST have shown the outer regions to have high asymmetry. To better understand the structure and composition of the disk, we have performed a deep polarimetric study of HD 106906's asymmetrical debris disk using newly obtained $H$-, $J$-, and $K1$-band polarimetric data from the Gemini Planet Imager (GPI). An empirical analysis of our data supports a disk that is asymmetrical in surface brightness and structure, where fitting an inclined ring model to the disk spine suggests that the disk may be highly eccentric ($e\gtrsim0.16$). A comparison of the disk flux with the stellar flux in each band suggests a blue color that also does not significantly vary across the disk. We discuss these results in terms of possible sources of asymmetry, where we find that dynamical interaction with the planet companion, HD 106906b, is a likely candidate., Comment: 19 pages, 10 figures, 4 tables, accepted for publication in ApJ

Published

2021

16. Spitzer Follow-up of Extremely Cold Brown Dwarfs Discovered by the Backyard Worlds: Planet 9 Citizen Science Project

Author

Meisner, Aaron M., Faherty, Jacqueline K., Kirkpatrick, J. Davy, Schneider, Adam C., Caselden, Dan, Gagne, Jonathan, Kuchner, Marc J., Burgasser, Adam J., Casewell, Sarah L., Debes, John H., Artigau, Etienne, Gagliuffi, Daniella C. Bardalez, Logsdon, Sarah E., Kiman, Rocio, Allers, Katelyn, Hsu, Chih-Chun, Wisniewski, John P., Allen, Michaela B., Beaulieu, Paul, Colin, Guillaume, Luca, Hugo A. Durantini, Goodman, Sam, Gramaize, Leopold, Hamlet, Leslie K., Hinckley, Ken, Kiwy, Frank, Martin, David W., Pendrill, William, Rothermich, Austin, Sainio, Arttu, Schumann, Jorg, Andersen, Nikolaj Stevnbak, Tanner, Christopher, Thakur, Vinod, Thevenot, Melina, Walla, Jim, Wedracki, Zbigniew, Aganze, Christian, Gerasimov, Roman, Theissen, Christopher, Worlds, The Backyard, and Collaboration, Planet 9

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

We present Spitzer follow-up imaging of 95 candidate extremely cold brown dwarfs discovered by the Backyard Worlds: Planet 9 citizen science project, which uses visually perceived motion in multi-epoch WISE images to identify previously unrecognized substellar neighbors to the Sun. We measure Spitzer [3.6]-[4.5] color to phototype our brown dwarf candidates, with an emphasis on pinpointing the coldest and closest Y dwarfs within our sample. The combination of WISE and Spitzer astrometry provides quantitative confirmation of the transverse motion of 75 of our discoveries. Nine of our motion-confirmed objects have best-fit linear motions larger than 1"/yr; our fastest-moving discovery is WISEA J155349.96+693355.2 (total motion ~2.15"/yr), a possible T type subdwarf. We also report a newly discovered wide-separation (~400 AU) T8 comoving companion to the white dwarf LSPM J0055+5948 (the fourth such system to be found), plus a candidate late T companion to the white dwarf LSR J0002+6357 at 5.5' projected separation (~8,700 AU if associated). Among our motion-confirmed targets, five have Spitzer colors most consistent with spectral type Y. Four of these five have exceptionally red Spitzer colors suggesting types of Y1 or later, adding considerably to the small sample of known objects in this especially valuable low-temperature regime. Our Y dwarf candidates begin bridging the gap between the bulk of the Y dwarf population and the coldest known brown dwarf., Comment: accepted for publication in The Astrophysical Journal

Published

2020

17. Dynamical Evidence of a Spiral Arm--Driving Planet in the MWC 758 Protoplanetary Disk

Author

Ren, Bin, Dong, Ruobing, van Holstein, Rob G., Ruffio, Jean-Baptiste, Calvin, Benjamin A., Girard, Julien H., Benisty, Myriam, Boccaletti, Anthony, Esposito, Thomas M., Choquet, Élodie, Mawet, Dimitri, Pueyo, Laurent, Stolker, Tomas, Chiang, Eugene, de Boer, Jozua, Debes, John H., Garufi, Antonio, Grady, Carol A., Hines, Dean C., Maire, Anne-Lise, Ménard, François, Millar-Blanchaer, Maxwell, Perrin, Marshall D., Poteet, Charles A., and Schneider, Glenn

Subjects

Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Solar and Stellar Astrophysics

Abstract

More than a dozen young stars host spiral arms in their surrounding protoplanetary disks. The excitation mechanisms of such arms are under debate. The two leading hypotheses -- companion-disk interaction and gravitational instability (GI) -- predict distinct motion for spirals. By imaging the MWC 758 spiral arm system at two epochs spanning ${\sim}5$ yr using the SPHERE instrument on the Very Large Telescope (VLT), we test the two hypotheses for the first time. We find that the pattern speeds of the spirals are not consistent with the GI origin. Our measurements further evince the existence of a faint "missing planet" driving the disk arms. The average spiral pattern speed is $0.\!^\circ22\pm0.\!^\circ03$ yr$^{-1}$, pointing to a driver at $172_{-14}^{+18}$ au around a $1.9$ $M_\odot$ central star if it is on a circular orbit. In addition, we witness time varying shadowing effects on a global scale that are likely originated from an inner disk., Comment: 9 pages, 3 figures, published in ApJ Letters. Data files and gif movie of Figure 1ab in ancillary folder

Published

2020

18. WISEA J041451.67-585456.7 and WISEA J181006.18-101000.5: The First Extreme T-type Subdwarfs?

Author

Schneider, Adam C., Burgasser, Adam J., Gerasimov, Roman, Marocco, Federico, Gagne, Jonathan, Goodman, Sam, Beaulieu, Paul, Pendrill, William, Rothermich, Austin, Sainio, Arttu, Kuchner, Marc J., Caselden, Dan, Meisner, Aaron M., Faherty, Jacqueline K., Mamajek, Eric E., Hsu, Chih-Chun, Greco, Jennifer J., Cushing, Michael C., Kirkpatrick, J. Davy, Gagliuffi, Daniella Bardalez, Logsdon, Sarah E., Allers, Katelyn, Debes, John H., Worlds, The Backyard, and Collaboration, Planet 9

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

We present the discoveries of WISEA J041451.67-585456.7 and WISEA J181006.18-101000.5, two low-temperature (1200$-$1400 K), high proper motion T-type subdwarfs. Both objects were discovered via their high proper motion ($>$0.5 arcsec yr$^{-1}$); WISEA J181006.18-101000.5 as part of the NEOWISE proper motion survey and WISEA J041451.67-585456.7 as part of the citizen science project Backyard Worlds; Planet 9. We have confirmed both as brown dwarfs with follow-up near-infrared spectroscopy. Their spectra and near-infrared colors are unique amongst known brown dwarfs, with some colors consistent with L-type brown dwarfs and other colors resembling those of the latest-type T dwarfs. While no forward model consistently reproduces the features seen in their near-infrared spectra, the closest matches suggest very low metallicities ([Fe/H] $\leq$ -1), making these objects likely the first examples of extreme subdwarfs of the T spectral class (esdT). WISEA J041451.67-585456.7 and WISEA J181006.18-101000.5 are found to be part of a small population of objects that occupy the "substellar transition zone," and have the lowest masses and effective temperatures of all objects in this group., Comment: Accepted for publication in the Astrophysical Journal

Published

2020

19. A Word to the WISE: Confusion is Unavoidable for WISE-selected Infrared Excesses

Author

Dennihy, Erik, Farihi, Jay, Fusillo, Nicola Pietro Gentile, and Debes, John H.

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

Stars with excess infrared radiation from circumstellar dust are invaluable for studies of exoplanetary systems, informing our understanding on processes of planet formation and destruction alike. All-sky photometric surveys have made the identification of dusty infrared excess candidates trivial, however, samples that rely on data from WISE are plagued with source confusion, leading to high false positive rates. Techniques to limit its contribution to WISE-selected samples have been developed, and their effectiveness is even more important as we near the end-of-life of Spitzer, the only facility capable of confirming the excess. Here, we present a Spitzer follow-up of a sample of 22 WISE-selected infrared excess candidates near the faint-end of the WISE detection limits. Eight of the 22 excesses are deemed the result of source confusion, with the remaining candidates all confirmed by the Spitzer data. We consider the efficacy of ground-based near-infrared imaging and astrometric filtering of samples to limit confusion among the sample. We find that both techniques are worthwhile for vetting candidates, but fail to identify all of the confused excesses, indicating that they cannot be used to confirm WISE-selected infrared excess candidates, but only to rule them out. This result confirms the expectation that WISE-selected infrared excess samples will always suffer from appreciable levels of contamination, and that care should be taken in their interpretation regardless of the filters applied., Comment: 13 pages, 4 Figures; Accepted for publication in ApJ

Published

2020

20. Peter Pan Disks: Long-lived Accretion Disks Around Young M Stars

Author

Silverberg, Steven M., Wisniewski, John P., Kuchner, Marc J., Lawson, Kellen D., Bans, Alissa S., Debes, John H., Biggs, Joseph R., Bosch, Milton K. D., Doll, Katharina, Luca, Hugo A. Durantini, Enachioaie, Alexandru, Hamilton, Joshua, Holden, Jonathan, Hyogo, Michiharu, and Collaboration, the Disk Detective

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

WISEA J080822.18-644357.3, an M star in the Carina association, exhibits extreme infrared excess and accretion activity at an age greater than the expected accretion disk lifetime. We consider J0808 as the prototypical example of a class of M star accretion disks at ages $\gtrsim 20$ Myr, which we call ``Peter Pan'' disks, since they apparently refuse to grow up. We present four new Peter Pan disk candidates identified via the Disk Detective citizen science project, coupled with \textit{Gaia} astrometry. We find that WISEA J044634.16-262756.1 and WISEA J094900.65-713803.1 both exhibit significant infrared excess after accounting for nearby stars within the 2MASS beams. The J0446 system has $>95\%$ likelihood of Columba membership. The J0949 system shows $>95\%$ likelihood of Carina membership. We present new GMOS optical spectra of all four objects, showing possible accretion signatures on all four stars. We present ground-based and \textit{TESS} lightcurves of J0808 and 2MASS J0501-4337, including a large flare and aperiodic dipping activity on J0808, and strong periodicity on J0501. We find Pa$\beta$ and Br$\gamma$ emission indicating ongoing accretion in near-IR spectroscopy of J0808. Using observed characteristics of these systems, we discuss mechanisms that lead to accretion disks at ages $\gtrsim20$ Myr, and find that these objects most plausibly represent long-lived CO-poor primordial disks, or ``hybrid'' disks, exhibiting both debris- and primordial-disk features. The question remains: why have gas-rich disks persisted so long around these particular stars?, Comment: 25 pages, 17 figures. Accepted for publication in the Astrophysical Journal

Published

2020

21. Using Data Imputation for Signal Separation in High Contrast Imaging

Author

Ren, Bin, Pueyo, Laurent, Chen, Christine, Choquet, Élodie, Debes, John H., Duchêne, Gaspard, Ménard, François, and Perrin, Marshall D.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Solar and Stellar Astrophysics, Statistics - Machine Learning

Abstract

To characterize circumstellar systems in high contrast imaging, the fundamental step is to construct a best point spread function (PSF) template for the non-circumstellar signals (i.e., star light and speckles) and separate it from the observation. With existing PSF construction methods, the circumstellar signals (e.g., planets, circumstellar disks) are unavoidably altered by over-fitting and/or self-subtraction, making forward modeling a necessity to recover these signals. We present a forward modeling--free solution to these problems with data imputation using sequential non-negative matrix factorization (DI-sNMF). DI-sNMF first converts this signal separation problem to a "missing data" problem in statistics by flagging the regions which host circumstellar signals as missing data, then attributes PSF signals to these regions. We mathematically prove it to have negligible alteration to circumstellar signals when the imputation region is relatively small, which thus enables precise measurement for these circumstellar objects. We apply it to simulated point source and circumstellar disk observations to demonstrate its proper recovery of them. We apply it to Gemini Planet Imager (GPI) K1-band observations of the debris disk surrounding HR 4796A, finding a tentative trend that the dust is more forward scattering as the wavelength increases. We expect DI-sNMF to be applicable to other general scenarios where the separation of signals is needed., Comment: 18 pages, 9 figures, ApJ published. Modified AASTeX template at https://github.com/seawander/aastex_pwned

Published

2020

22. An Exo-Kuiper Belt and An Extended Halo around HD 191089 in Scattered Light

Author

Ren, Bin, Choquet, Élodie, Perrin, Marshall D., Duchêne, Gaspard, Debes, John H., Pueyo, Laurent, Rice, Malena, Chen, Christine, Schneider, Glenn, Esposito, Thomas M., Poteet, Charles A., Wang, Jason J., Ammons, S. Mark, Ansdell, Megan, Arriaga, Pauline, Bailey, Vanessa P., Barman, Travis, Bruzzone, Juan Sebastián, Bulger, Joanna, Chilcote, Jeffrey, Cotten, Tara, De Rosa, Robert J., Doyon, Rene, Fitzgerald, Michael P., Follette, Katherine B., Goodsell, Stephen J., Gerard, Benjamin L., Graham, James R., Greenbaum, Alexandra Z., Hagan, J. Brendan, Hibon, Pascale, Hines, Dean C., Hung, Li-Wei, Ingraham, Patrick, Kalas, Paul, Konopacky, Quinn, Larkin, James E., Macintosh, Bruce, Maire, Jérôme, Marchis, Franck, Marois, Christian, Mazoyer, Johan, Ménard, François, Metchev, Stanimir, Millar-Blanchaer, Maxwell A., Mittal, Tushar, Moerchen, Magaret, Nielsen, Eric L., N'Diaye, Mamadou, Oppenheimer, Rebecca, Palmer, David, Patience, Jennifer, Pinte, Christophe, Poyneer, Lisa, Rajan, Abhijith, Rameau, Julien, Rantakyrö, Fredrik T., Ruffio, Jean-Baptiste, Ryan, Dominic, Savransky, Dmitry, Schneider, Adam C., Sivaramakrishnan, Anand, Song, Inseok, Soummer, Rémi, Stark, Christopher, Thomas, Sandrine, Vigan, Arthur, Wallace, J. Kent, Ward-Duong, Kimberly, Wiktorowicz, Sloane, Wolff, Schuyler, Ygouf, Marie, and Norman, Colin

Subjects

Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Solar and Stellar Astrophysics

Abstract

We have obtained Hubble Space Telescope STIS and NICMOS, and Gemini/GPI scattered light images of the HD 191089 debris disk. We identify two spatial components: a ring resembling Kuiper Belt in radial extent (FWHM: ${\sim}$25 au, centered at ${\sim}$46 au), and a halo extending to ${\sim}$640 au. We find that the halo is significantly bluer than the ring, consistent with the scenario that the ring serves as the "birth ring" for the smaller dust in the halo. We measure the scattering phase functions in the 30{\deg}-150{\deg} scattering angle range and find the halo dust is both more forward- and backward-scattering than the ring dust. We measure a surface density power law index of -0.68${\pm}$0.04 for the halo, which indicates the slow-down of the radial outward motion of the dust. Using radiative transfer modeling, we attempt to simultaneously reproduce the (visible) total and (near-infrared) polarized intensity images of the birth ring. Our modeling leads to mutually inconsistent results, indicating that more complex models, such as the inclusion of more realistic aggregate particles, are needed., Comment: 29 pages, 18 figures, ApJ accepted

Published

2019

23. High Fidelity Imaging of the Inner AU Mic Debris Disk: Evidence of Differential Wind Sculpting?

Author

Wisniewski, John P., Kowalski, Adam F., Davenport, James R. A., Schneider, Glenn, Grady, Carol A., Hebb, Leslie, Lawson, Kellen D., Augereau, Jean-Charles, Boccaletti, Anthony, Brown, Alexander, Debes, John H., Gaspar, Andras, Henning, Thomas K., Hines, Dean C., Kuchner, Marc J., Lagrange, Anne-Marie, Milli, Julien, Sezestre, Elie, Stark, Christopher C., and Thalmann, Christian

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Earth and Planetary Astrophysics

Abstract

We present new high fidelity optical coronagraphic imagery of the inner $\sim$50 au of AU Mic's edge-on debris disk using the BAR5 occulter of the Hubble Space Telescope Imaging Spectrograph (HST/STIS) obtained on 26-27 July 2018. This new imagery reveals that "feature A", residing at a projected stellocentric separation of 14.2 au on SE-side of the disk, exhibits an apparent "loop-like" morphology at the time of our observations. The loop has a projected width of 1.5 au and rises 2.3 au above the disk midplane. We also explored TESS photometric observations of AU Mic that are consistent with evidence of two starspot complexes in the system. The likely co-alignment of the stellar and disk rotational axes breaks degeneracies in detailed spot modeling, indicating that AU Mic's projected magnetic field axis is offset from its rotational axis. We speculate that small grains in AU Mic's disk could be sculpted by a time-dependent wind that is influenced by this offset magnetic field axis, analogous to co-rotating Solar interaction regions that sculpt and influence the inner and outer regions of our own Heliosphere. Alternatively, if the observed spot modulation is indicative of a significant mis-alignment of the stellar and disk rotational axes, we suggest the disk could still be sculpted by the differential equatorial versus polar wind that it sees with every stellar rotation., Comment: Accepted to ApJL

Published

2019

24. Multiple Rings of Millimeter Dust Emission in the HD 15115 Debris Disk

Author

MacGregor, Meredith A., Weinberger, Alycia J., Nesvold, Erika R., Hughes, A. Meredith, Wilner, D. J., Currie, Thayne, Debes, John H., Donaldson, Jessica K., Redfield, Seth, Roberge, Aki, and Schneider, Glenn

Subjects

Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Solar and Stellar Astrophysics

Abstract

We present observations of the HD 15115 debris disk from ALMA at 1.3 mm that capture this intriguing system with the highest resolution ($0.\!\!^{\prime\prime}6$ or $29$ AU) at millimeter wavelengths to date. This new ALMA image shows evidence for two rings in the disk separated by a cleared gap. By fitting models directly to the observed visibilities within a MCMC framework, we are able to characterize the millimeter continuum emission and place robust constraints on the disk structure and geometry. In the best-fit model of a power law disk with a Gaussian gap, the disk inner and outer edges are at $43.9\pm5.8$ AU ($0.\!\!^{\prime\prime}89\pm0.\!\!^{\prime\prime}12$) and $92.2\pm2.4$ AU ($1.\!\!^{\prime\prime}88\pm0.\!\!^{\prime\prime}49$), respectively, with a gap located at $58.9\pm4.5$~AU ($1.\!\!^{\prime\prime}2\pm0.\!\!^{\prime\prime}10$) with a fractional depth of $0.88\pm0.10$ and a width of $13.8\pm5.6$ AU ($0.\!\!^{\prime\prime}28\pm0.\!\!^{\prime\prime}11$). Since we do not see any evidence at millimeter wavelengths for the dramatic east-west asymmetry seen in scattered light, we conclude that this feature most likely results from a mechanism that only affects small grains. Using dynamical modeling and our constraints on the gap properties, we are able to estimate a mass for the possible planet sculpting the gap to be $0.16\pm0.06$ $M_\text{Jup}$., Comment: 9 pages, 4 figures, accepted to ApJL on May 15, 2019

Published

2019

25. A 3 Gyr White Dwarf with Warm Dust Discovered via the Backyard Worlds: Planet 9 Citizen Science Project

Author

Debes, John H., Thevenot, Melina, Kuchner, Marc, Burgasser, Adam, Schneider, Adam, Meisner, Aaron, Gagne, Jonathan, Faherty, Jaqueline K., Rees, Jon M., Allen, Michaela, Caselden, Dan, Cushing, Michael, Wisniewski, John, Allers, Katelyn, Worlds, The Backyard, Collaboration, Planet 9, and Collaboration, the Disk Detective

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

Infrared excesses due to dusty disks have been observed orbiting white dwarfs with effective temperatures between 7200 K and 25000 K, suggesting that the rate of tidal disruption of minor bodies massive enough to create a coherent disk declines sharply beyond 1~Gyr after white dwarf formation. We report the discovery that the candidate white dwarf LSPM J0207+3331, via the Backyard Worlds: Planet 9 citizen science project and Keck Observatory follow-up spectroscopy, is hydrogen-dominated with a luminous compact disk (L$_{\rm IR}$/L$_{\star}$=14%) and an effective temperature nearly 1000K cooler than any known white dwarf with an infrared excess. The discovery of this object places the latest time for large scale tidal disruption events to occur at $\sim$3 Gyr past the formation of the host white dwarf, making new demands of dynamical models for planetesimal perturbation and disruption around post main sequence planetary systems. Curiously, the mid-IR photometry of the disk cannot be fully explained by a geometrically thin, optically thick dust disk as seen for other dusty white dwarfs, but requires a second ring of dust near the white dwarf's Roche radius. In the process of confirming this discovery, we found that careful measurements of WISE source positions can reveal when infrared excesses for white dwarfs are co-moving with their hosts, helping distinguish them from confusion noise., Comment: 7 pages, Published in ApJ Letters

Published

2019

26. ALMA Detection of Extended Millimeter Halos in the HD 32297 and HD 61005 Debris Disks

Author

MacGregor, Meredith A., Weinberger, Alycia J., Hughes, A. Meredith, Wilner, D. J., Currie, Thayne, Debes, John H., Donaldson, Jessica K., Redfield, Seth, Roberge, Aki, and Schneider, Glenn

Subjects

Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Astrophysics of Galaxies, Astrophysics - Solar and Stellar Astrophysics

Abstract

We present ALMA 1.3 mm (230 GHz) observations of the HD 32297 and HD 61005 debris disks, two of the most iconic debris disks due to their dramatic swept-back wings seen in scattered light images. These observations achieve sensitivities of 14 and 13 $\mu$Jy beam$^{-1}$ for HD 32297 and HD 61005, respectively, and provide the highest resolution images of these two systems at millimeter wavelengths to date. By adopting a MCMC modeling approach, we determine that both disks are best described by a two-component model consisting of a broad ($\Delta R/R> 0.4$) planetesimal belt with a rising surface density gradient, and a steeply falling outer halo aligned with the scattered light disk. The inner and outer edges of the planetesimal belt are located at $78.5\pm8.1$ AU and $122\pm3$ AU for HD 32297, and $41.9\pm0.9$ AU and $67.0\pm0.5$ AU for HD 61005. The halos extend to $440\pm32$ AU and $188\pm8$ AU, respectively. We also detect $^{12}$CO J$=2-1$ gas emission from HD 32297 co-located with the dust continuum. These new ALMA images provide observational evidence that larger, millimeter-sized grains may also populate the extended halos of these two disks previously thought to only be composed of small, micron-sized grains. We discuss the implications of these results for potential shaping and sculpting mechanisms of asymmetric debris disks., Comment: 17 pages, 5 figures, published in ApJ

Published

2018

27. Follow-up Imaging of Disk Candidates from the Disk Detective Citizen Science Project: New Discoveries and False-Positives in WISE Circumstellar Disk Surveys

Author

Silverberg, Steven M., Kuchner, Marc J., Wisniewski, John P., Bans, Alissa S., Debes, John H., Kenyon, Scott J., Baranec, Christoph, Riddle, Reed, Law, Nicholas, Teske, Johanna K., Burns-Kaurin, Emily, Bosch, Milton K. D., Cernohous, Tadeas, Doll, Katharina, Luca, Hugo A. Durantini, Hyogo, Michiharu, Hamilton, Joshua, Finnemann, Johanna J. S., Lau, Lily, and Collaboration, the Disk Detective

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

The Disk Detective citizen science project aims to find new stars with excess 22-$\mu$m emission from circumstellar dust in the AllWISE data release from the Wide-field Infrared Survey Explorer (WISE). We evaluated 261 Disk Detective objects of interest with imaging with the Robo-AO adaptive optics instrument on the 1.5m telescope at Palomar Observatory and with RetroCam on the 2.5m du Pont telescope at Las Campanas Observatory to search for background objects at 0.15''-12'' separations from each target. Our analysis of these data lead us to reject 7% of targets. Combining this result with statistics from our online image classification efforts implies that at most $7.9\% \pm 0.2\%$ of AllWISE-selected infrared excesses are good disk candidates. Applying our false positive rates to other surveys, we find that the infrared excess searches of McDonald et al. (2012), McDonald et al. (2017), and Marton et al. (2016) all have false positive rates $>70\%$. Moreover, we find that all thirteen disk candidates in Theissen & West (2014) with W4 signal-to-noise >3 are false positives. We present 244 disk candidates that have survived vetting by follow-up imaging. Of these, 213 are newly-identified disk systems. Twelve of these are candidate members of comoving pairs based on \textit{Gaia} astrometry, supporting the hypothesis that warm dust is associated with binary systems. We also note the discovery of 22 $\mu$m excess around two known members of the Scorpius-Centaurus association, and identify known disk host WISEA J164540.79-310226.6 as a likely Sco-Cen member. Thirty-one of these disk candidates are closer than $\sim 125$ pc (including 27 debris disks), making them good targets for direct imaging exoplanet searches., Comment: 23 pages, eight figures. Accepted for publication in the Astrophysical Journal. SEDs and machine-readable tables will be available in the ApJ online version

Published

2018

28. Space-Based Coronagraphic Imaging Polarimetry of the TW Hydrae Disk: Shedding New Light on Self-Shadowing Effects

Author

Poteet, Charles A., Chen, Christine H., Hines, Dean C., Perrin, Marshall D., Debes, John H., Pueyo, Laurent, Schneider, Glenn, Mazoyer, Johan, and Kolokolova, Ludmilla

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Earth and Planetary Astrophysics

Abstract

We present Hubble Space Telescope Near-Infrared Camera and Multi-Object Spectrometer coronagraphic imaging polarimetry of the TW Hydrae protoplanetary disk. These observations simultaneously measure the total and polarized intensity, allowing direct measurement of the polarization fraction across the disk. In accord with the self-shadowing hypothesis recently proposed by Debes et al., we find that the total and polarized intensity of the disk exhibits strong azimuthal asymmetries at projected distances consistent with the previously reported bright and dark ring-shaped structures (~45-99 au). The sinusoidal-like variations possess a maximum brightness at position angles near ~268-300 degrees and are up to ~28% stronger in total intensity. Furthermore, significant radial and azimuthal variations are also detected in the polarization fraction of the disk. In particular, we find that regions of lower polarization fraction are associated with annuli of increased surface brightness, suggesting that the relative proportion of multiple-to-single scattering is greater along the ring and gap structures. Moreover, we find strong (~20%) azimuthal variation in the polarization fraction along the shadowed region of the disk. Further investigation reveals that the azimuthal variation is not the result of disk flaring effects, but instead from a decrease in the relative contribution of multiple-to-single scattering within the shadowed region. Employing a two-layer scattering surface, we hypothesize that the diminished contribution in multiple scattering may result from shadowing by an inclined inner disk, which prevents direct stellar light from reaching the optically thick underlying surface component., Comment: Accepted for publication in the Astrophysical Journal, 2018 May 3: 17 pages, 9 figures, 2 tables

Published

2018

29. A Decade of MWC 758 Disk Images: Where Are the Spiral-Arm-Driving Planets?

Author

Ren, Bin, Dong, Ruobing, Esposito, Thomas M., Pueyo, Laurent, Debes, John H., Poteet, Charles A., Choquet, Élodie, Benisty, Myriam, Chiang, Eugene, Grady, Carol A., Hines, Dean C., Schneider, Glenn, and Soummer, Rémi

Subjects

Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Solar and Stellar Astrophysics

Abstract

Large-scale spiral arms have been revealed in scattered light images of a few protoplanetary disks. Theoretical models suggest that such arms may be driven by and co-rotate with giant planets, which has called for remarkable observational efforts to look for them. By examining the rotation of the spiral arms for the MWC 758 system over a 10-yr timescale, we are able to provide dynamical constraints on the locations of their perturbers. We present reprocessed Hubble Space Telescope (HST)/NICMOS F110W observations of the target in 2005, and the new Keck/NIRC2 $L'$-band observations in 2017. MWC~758's two well-known spiral arms are revealed in the NICMOS archive at the earliest observational epoch. With additional Very Large Telescope (VLT)/SPHERE data, our joint analysis leads to a pattern speed of ${0.6^\circ}^{+3.3^\circ}_{-0.6^\circ}\, \mathrm{yr}^{-1}$ at $3\sigma$ for the two major spiral arms. If the two arms are induced by a perturber on a near-circular orbit, its best fit orbit is at $89$ au ($0.59"$), with a $3\sigma$ lower limit of 30 au ($0.20"$). This finding is consistent with the simulation prediction of the location of an arm-driving planet for the two major arms in the system., Comment: 9 pages, 4 figures, Published by ApJ Letters. Updated citations, and fixed equation typos in the Appendix

Published

2018

30. The HR 4796A Debris System: Discovery of Extensive Exo-Ring Dust Material

Author

Schneider, Glenn, Debes, John H., Grady, Carol A., Gaspar, Andras, Henning, Thomas, Hines, Dean C., Kuchner, Marc J., Perrin, Marshall, and Wisniewski, John P.

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Earth and Planetary Astrophysics

Abstract

The optically and IR bright, and starlight-scattering, HR 4796A ring-like debris disk is one of the most (and best) studied exoplanetary debris systems. The presence of a yet-undetected planet has been inferred (or suggested) from the narrow width and inner/outer truncation radii of its r = 1.05" (77 au) debris ring. We present new, highly sensitive, Hubble Space Telescope (HST) visible-light images of the HR 4796A circumstellar debris system and its environment over a very wide range of stellocentric angles from 0.32" (23 au) to ~ 15" (1100 au). These very high contrast images were obtained with the Space Telescope Imaging Spectrograph (STIS) using 6-roll PSF-template subtracted coronagraphy suppressing the primary light of HR 4796A and using three image plane occulters and simultaneously subtracting the background light from its close angular proximity M2.5V companion. The resulting images unambiguously reveal the debris ring embedded within a much larger, morphologically complex, and bi-axially asymmetric exoring scattering structure. These images at visible wavelengths are sensitive to, and map, the spatial distribution, brightness, and radial surface density of micron size particles over 5 dex in surface brightness. These particles in the exo-ring environment may be unbound from the system and interacting with the local ISM. Herein we present a new morphological and photometric view of the larger than prior seen HR 4796A exoplanetary debris system with sensitivity to small particles at stellocentric distances an order of magnitude greater than has previously been observed., Comment: 28 pages, 17 figures, accepted for publication in the Astronomical Journal 21 December 2017

Published

2017

31. Post-processing of the HST STIS coronagraphic observations

Author

Ren, Bin, Pueyo, Laurent, Perrin, Marshall D., Debes, John H., and Choquet, Élodie

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Earth and Planetary Astrophysics

Abstract

In the past 20 years, the Hubble Space Telescope (HST) STIS coronagraphic instrument has observed more than 100 stars, obtaining more than 4,000 readouts since its installment on HST in 1997 and the numbers are still increasing. We reduce the whole STIS coronagraphic archive at the most commonly observed positions (Wedge A0.6 and A1.0) with new post-processing methods, and present our results here. We are able to recover all of the 32 previously reported circumstellar disks, and obtain better contrast close to the star. For some of the disks, our results are limited by the over subtraction of the methods, and therefore the major regions of the disks can be recovered except the faintest regions. We also explain our efforts in the calibration of its new BAR5 occulting position, enabling STIS to explore inner regions as close as 0.2"., Comment: 14 pages, 9 figures, 2 tables. Proceedings of the SPIE, 10400-21

Published

2017

32. WIRED for EC: New White Dwarfs with $\textit{WISE}$ Infrared Excesses and New Classification Schemes from the Edinburgh-Cape Blue Object Survey

Author

Dennihy, E., Clemens, J. C., Debes, John H., Dunlap, B. H., Kilkenny, D., O'Brien, P. C., and Fuchs, J. T.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

We present a simple method for identifying candidate white dwarf systems with dusty exoplanetary debris based on a single temperature blackbody model fit to the infrared excess. We apply this technique to a sample of Southern Hemisphere white dwarfs from the recently completed Edinburgh-Cape Blue Object Survey and identify four new promising dusty debris disk candidates. We demonstrate the efficacy of our selection method by recovering three of the four $\textit{Spitzer}$ confirmed dusty debris disk systems in our sample. Further investigation using archival high resolution imaging shows $\textit{Spitzer}$ data of the un-recovered fourth object is likely contaminated by a line-of-sight object that either led to a mis-classification as a dusty disk in the literature or is confounding our method. Finally, in our diagnostic plot we show that dusty white dwarfs which also host gaseous debris lie along a boundary of our dusty debris disk region, providing clues to the origin and evolution of these especially interesting systems., Comment: 21 pages, 12 figures, accepted to ApJ

Published

2017

33. Optical Coronagraphic Spectroscopy of AU Mic: Evidence of Time Variable Colors?

Author

Lomax, Jamie R., Wisniewski, John P., Roberge, Aki, Donaldson, Jessica K., Debes, John H., Malumuth, Eliot M., and Weinberger, Alycia J.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

We present coronagraphic long slit spectra of AU Mic's debris disk taken with the STIS instrument aboard the Hubble Space Telescope (HST). Our spectra are the first spatially resolved, scattered light spectra of the system's disk, which we detect at projected distances between approximately 10 and 45 AU. Our spectra cover a wavelength range between 5200 and 10200 angstroms. We find that the color of AU Mic's debris disk is bluest at small (12-35 AU) projected separations. These results both confirm and quantify the findings qualitatively noted by Krist et al. (2005), and are different than IR observations that suggested a uniform blue or gray color as a function of projected separation in this region of the disk. Unlike previous literature that reported the color of AU Mic's disk became increasingly more blue as a function of projected separation beyond approximately 30 AU, we find the disk's optical color between 35-45 AU to be uniformly blue on the southeast side of the disk and decreasingly blue on the northwest side. We note that this apparent change in disk color at larger projected separations coincides with several fast, outward moving "features" that are passing through this region of the southeast side of the disk. We speculate that these phenomenon might be related, and that the fast moving features could be changing the localized distribution of sub-micron sized grains as they pass by, thereby reducing the blue color of the disk in the process. We encourage follow-up optical spectroscopic observations of the AU Mic to both confirm this result, and search for further modifications of the disk color caused by additional fast moving features propagating through the disk., Comment: Accepted by AJ, 13 pages, 8 figures, 1 table

Published

2017

34. Mid-infrared characterization of the planetary-mass companion ROXs 42B b

Author

Daemgen, Sebastian, Todorov, Kamen, Silva, Jasmin, Hand, Derek, Garcia, Eugenio V., Currie, Thayne, Burrows, Adam, Stassun, Keivan G., Ratzka, Thorsten, Debes, John H., Lafreniere, David, Jayawardhana, Ray, and Correia, Serge

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Earth and Planetary Astrophysics

Abstract

We present new Keck/NIRC2 3$-$5 $\mu$m infrared photometry of the planetary-mass companion to ROXS 42B in $L^\prime$, and for the first time in Brackett-$\alpha$ (Br$\alpha$) and in $M_\mathrm{s}$-band. We combine our data with existing near-infrared photometry and $K$-band (2$-$2.4 $\mu$m) spectroscopy and compare these with models and other directly imaged planetary-mass objects using forward modeling and retrieval methods in order to characterize the atmosphere of ROXS 42B b. ROXS 42B b's 1.25$-$5 $\mu$m spectral energy distribution most closely resembles that of GSC 06214 B and $\kappa$ And b, although it has a slightly bluer $K_{\rm s}$$-$$M_{\rm s}$ color than GSC 06214 B and thus so far lacks evidence for a circumplanetary disk. We cannot formally exclude the possibility that any of the tested dust-free/dusty/cloudy forward models describe atmosphere of ROXS 42B b well. However, models with substantial atmospheric dust/clouds yield temperatures and gravities that are consistent when fit to photometry and spectra separately, whereas dust-free model fits to photometry predict temperatures/gravities inconsistent with ROXS 42B b's $K$-band spectrum and vice-versa. Atmospheric retrieval on the 1$-$5 $\mu$m photometry places a limit on the fractional number density of CO$_2$ of $\log(n_{\rm CO_2})<-2.7$ but provides no other constraints so far. We conclude that ROXS 42B b has mid-IR photometric features that are systematically different from other previously observed planetary-mass and field objects of similar temperature. It remains unclear whether this is in the range of the natural diversity of targets at the very young ($\sim$2 Myr) age of ROXS 42B b, or unique to its early evolution and environment., Comment: 11 pages, 8 figures. Accepted for publication in Astronomy & Astrophysics

Published

2017

35. Chasing Shadows: Rotation of the Azimuthal Asymmetry in the TW Hya Disk

Author

Debes, John H., Poteet, Charles A., Jang-Condell, Hannah, Gaspar, Andras, Hines, Dean, Kastner, Joel H., Pueyo, Laurent, Rapson, Valerie, Roberge, Aki, Schneider, Glenn, and Weinberger, Alycia J.

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Earth and Planetary Astrophysics

Abstract

We have obtained new images of the protoplanetary disk orbiting TW Hya in visible, total intensity light with the Space Telescope Imaging Spectrograph (STIS) on the Hubble Space Telescope (HST), using the newly commissioned BAR5 occulter. These HST/STIS observations achieved an inner working angle $\sim$0.2\arcsec, or 11.7~AU, probing the system at angular radii coincident with recent images of the disk obtained by ALMA and in polarized intensity near-infrared light. By comparing our new STIS images to those taken with STIS in 2000 and with NICMOS in 1998, 2004, and 2005, we demonstrate that TW Hya's azimuthal surface brightness asymmetry moves coherently in position angle. Between 50~AU and 141~AU we measure a constant angular velocity in the azimuthal brightness asymmetry of 22.7$^\circ$~yr$^{-1}$ in a counter-clockwise direction, equivalent to a period of 15.9~yr assuming circular motion. Both the (short) inferred period and lack of radial dependence of the moving shadow pattern are inconsistent with Keplerian rotation at these disk radii. We hypothesize that the asymmetry arises from the fact that the disk interior to 1~AU is inclined and precessing due to a planetary companion, thus partially shadowing the outer disk. Further monitoring of this and other shadows on protoplanetary disks potentially opens a new avenue for indirectly observing the sites of planet formation., Comment: 27 pages, 5 figures, accepted to ApJ

Published

2017

36. Explorations of Dusty Debris Disk Geometry

Author

Dennihy, E., Debes, John H., and Clemens, J. C.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

As the sample of white dwarfs with signatures of planetary systems has grown, statistical studies have begun to suggest our picture of compact debris disk formation from disrupted planetary bodies is incomplete. Here we present the results of an effort to extend the preferred dust disk model introduced by \citet{jur03} to include elliptical geometries. We apply this model the observed distribution of fractional infrared luminosities, and explore the difference in preferred parameter spaces for a circular and highly elliptical model on a well-studied dusty white dwarf., Comment: 6 pages, 4 figures. To appear in the ASP Conference Series proceedings of "20th European Workshop on White Dwarfs," held at the University of Warwick, UK on July 25-29th, 2016

Published

2016

37. A subtle IR excess associated with a young White Dwarf in the Edinburgh-Cape Blue Object Survey

Author

Dennihy, E., Debes, John H., Dunlap, B. H., Dufour, P., Teske, Johanna K., and Clemens, J. C.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

We report the discovery of a subtle infrared excess associated with the young white dwarf EC\,05365--4749 at 3.35 and 4.6\,$\mu$m. Follow-up spectroscopic observations are consistent with a hydrogen atmosphere white dwarf of effective temperature 22\,800\,K and log [\emph{g} (\,cm\,s$^{-2}$) ] = 8.19. High resolution spectroscopy reveals atmospheric metal pollution with logarithmic abundances of [Mg/H] = --5.36 and [Ca/H] = --5.75, confirming the white dwarf is actively accreting from a metal-rich source with an intriguing abundance pattern. We find that the infrared excess is well modeled by a flat, opaque debris disk, though disk parameters are not well constrained by the small number of infrared excess points. We further demonstrate that relaxing the assumption of a circular dusty debris disk to include elliptical disks expands the widths of acceptable disks, adding an alternative interpretation to the subtle infrared excesses commonly observed around young white dwarfs., Comment: Accepted to ApJ, 11 pages, 9 figures

Published

2016

38. Disk Detective: Discovery of New Circumstellar Disk Candidates through Citizen Science

Author

Kuchner, Marc J., Silverberg, Steven M., Bans, Alissa S., Bhattacharjee, Shambo, Kenyon, Scott J., Debes, John H., Currie, Thayne, Garcia, Luciano, Jung, Dawoon, Lintott, Chris, McElwain, Michael, Padgett, Deborah L., Rebull, Luisa M., Wisniewski, John P., Nesvold, Erika, Schawinski, Kevin, Thaller, Michelle L., Grady, Carol A., Biggs, Joseph, Bosch, Milton, Cernohous, Tadeás, Luca, Hugo A. Durantini, Hyogo, Michiharu, Wah, Lily Lau Wan, Piipuu, Art, and Piñeiro, Fernanda

Subjects

Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Solar and Stellar Astrophysics

Abstract

The Disk Detective citizen science project aims to find new stars with 22 micron excess emission from circumstellar dust using data from NASA's WISE mission. Initial cuts on the AllWISE catalog provide an input catalog of 277,686 sources. Volunteers then view images of each source online in 10 different bands to identify false-positives (galaxies, background stars, interstellar matter, image artifacts, etc.). Sources that survive this online vetting are followed up with spectroscopy on the FLWO Tillinghast telescope. This approach should allow us to unleash the full potential of WISE for finding new debris disks and protoplanetary disks. We announce a first list of 37 new disk candidates discovered by the project, and we describe our vetting and follow-up process. One of these systems appears to contain the first debris disk discovered around a star with a white dwarf companion: HD 74389. We also report four newly discovered classical Be stars (HD 6612, HD 7406, HD 164137, and HD 218546) and a new detection of 22 micron excess around a previously known debris disk host star, HD 22128., Comment: 50 pages, accepted for publication in the Astrophysical Journal

Published

2016

39. Deep HST/STIS Visible-Light Imaging of Debris Systems around Solar Analog Hosts

Author

Schneider, Glenn, Grady, Carol A., Stark, Christopher C., Gaspar, Andras, Carson, Joseph, Debes, John H., Henning, Thomas, Hines, Dean C., Jang-Condell, Hannah, Kuchner, Marc J., Perrin, Marshall, Rodigas, Timothy J., Tamura, Motohide, and Wisniewski, John P.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

We present new Hubble Space Telescope observations of three a priori known starlight-scattering circumstellar debris systems (CDSs) viewed at intermediate inclinations around nearby close-solar analog stars: HD 207129, HD 202628, and HD 202917. Each of these CDSs possesses ring-like components that are more-massive analogs of our solar system's Edgeworth- Kuiper belt. These systems were chosen for follow-up observations to provide higher-fidelity and better sensitivity imaging for the sparse sample of solar-analog CDSs that range over two decades in systemic ages with HD 202628 and HD 202917 (both ~ 2.3 Gyr) currently the oldest CDSs imaged in visible or near-IR light. These deep (10 - 14 ksec) observations, with six-roll point-spread-function template subtracted visible-light coronagraphy using the Space Telescope Imaging Spectrograph, were designed to better reveal their angularly large, diffuse/low surface brightness, debris rings, and for all targets probe their exo-ring environments for starlight-scattering materials that present observational challenges for current ground-based facilities and instruments. Contemporaneously also observing with a narrower occulter position, these observations additionally probe the CDS endo-ring environments seen to be relatively devoid of scatterers. We discuss the morphological, geometrical, and photometric properties of these CDSs also in the context of other FGK-star hosted CDSs we have previously imaged as a homogeneously observed ensemble. From this combined sample we report a general decay in quiescent disk F_disk/F_star optical brightness ~ t^-0.8, similar to what is seen in at thermal IR wavelengths, and CDSs with a significant diversity in scattering phase asymmetries, and spatial distributions of their starlight-scattering grains., Comment: 58 pages, 16 figures, accepted for publication in the Astronomical Journal

Published

2016

40. Discovery of an Inner Disk Component around HD 141569 A

Author

Konishi, Mihoko, Grady, Carol A., Schneider, Glenn, Shibai, Hiroshi, McElwain, Michael W., Nesvold, Erika R., Kuchner, Marc J., Carson, Joseph, Debes, John. H., Gaspar, Andras, Henning, Thomas K., Hines, Dean C., Hinz, Philip M., Jang-Condell, Hannah, Moro-Martin, Amaya, Perrin, Marshall, Rodigas, Timothy J., Serabyn, Eugene, Silverstone, Murray D., Stark, Christopher C., Tamura, Motohide, Weinberger, Alycia J., and Wisniewski, John. P.

Subjects

Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Solar and Stellar Astrophysics

Abstract

We report the discovery of a scattering component around the HD 141569 A circumstellar debris system, interior to the previously known inner ring. The discovered inner disk component, obtained in broadband optical light with HST/STIS coronagraphy, was imaged with an inner working angle of 0".25, and can be traced from 0".4 (~46 AU) to 1".0 (~116 AU) after deprojection using i=55deg. The inner disk component is seen to forward scatter in a manner similar to the previously known rings, has a pericenter offset of ~6 AU, and break points where the slope of the surface brightness changes. It also has a spiral arm trailing in the same sense as other spiral arms and arcs seen at larger stellocentric distances. The inner disk spatially overlaps with the previously reported warm gas disk seen in thermal emission. We detect no point sources within 2" (~232 AU), in particular in the gap between the inner disk component and the inner ring. Our upper limit of 9+/-3 M_J is augmented by a new dynamical limit on single planetary mass bodies in the gap between the inner disk component and the inner ring of 1 M_J, which is broadly consistent with previous estimates., Comment: 4 pages, 4 figures, 1 table, accepted for publication in ApJL

Published

2016

41. WFIRST-AFTA Coronagraphic Operations: Lessons Learned from the Hubble Space Telescope and the James Webb Space Telescope

Author

Debes, John H., Ygouf, Marie, Choquet, Elodie, Hines, Dean C., Perrin, Marshall, Golimowski, David A., Lajoie, Charles-Phillipe, Mazoyer, Johan, Pueyo, Laurent, Soummer, Remi, and van der Marel, Roeland

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Earth and Planetary Astrophysics

Abstract

The coronagraphic instrument currently proposed for the WFIRST-AFTA mission will be the first example of a space-based coronagraph optimized for extremely high contrasts that are required for the direct imaging of exoplanets reflecting the light of their host star. While the design of this instrument is still in progress, this early stage of development is a particularly beneficial time to consider the operation of such an instrument. In this paper, we review current or planned operations on the Hubble Space Telescope (HST) and the James Webb Space Telescope (JWST) with a focus on which operational aspects will have relevance to the planned WFIRST-AFTA coronagraphic instrument. We identify five key aspects of operations that will require attention: 1) detector health and evolution, 2) wavefront control, 3) observing strategies/post-processing, 4) astrometric precision/target acquisition, and 5) polarimetry. We make suggestions on a path forward for each of these items., Comment: 52 pages, 8 Figures, to appear in the Special WFIRST-AFTA JATIS Coronagraphic Instrument Issue

Published

2015

42. Direct Imaging and Spectroscopy of a Young Extrasolar Kuiper Belt in the Nearest OB Association

Author

Currie, Thayne, Lisse, Carey M., Kuchner, Marc J., Madhusudhan, Nikku, Kenyon, Scott J., Thalmann, Christian, Carson, Joseph, and Debes, John H.

Subjects

Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Solar and Stellar Astrophysics

Abstract

We describe the discovery of a bright, young Kuiper belt-like debris disk around HD 115600, a $\sim$ 1.4--1.5 M$_\mathrm{\odot}$, $\sim$ 15 Myr old member of the Sco-Cen OB Association. Our H-band coronagraphy/integral field spectroscopy from the \textit{Gemini Planet Imager} shows the ring has a (luminosity scaled) semi major axis of ($\sim$ 22 AU) $\sim$ 48 AU, similar to the current Kuiper belt. The disk appears to have neutral scattering dust, is eccentric (e $\sim$ 0.1--0.2), and could be sculpted by analogues to the outer solar system planets. Spectroscopy of the disk ansae reveal a slightly blue to gray disk color, consistent with major Kuiper belt chemical constituents, where water-ice is a very plausible dominant constituent. Besides being the first object discovered with the next generation of extreme adaptive optics systems (i.e. SCExAO, GPI, SPHERE), HD 115600's debris ring and planetary system provides a key reference point for the early evolution of the solar system, the structure and composition of the Kuiper belt, and the interaction between debris disks and planets., Comment: 7 pages, 3 figures, 1 table; ApJ Letters, in press

Published

2015

43. A New Merging Double Degenerate Binary in the Solar Neighborhood

Author

Debes, John H., Kilic, Mukremin, Tremblay, Pier-Emmanuel, López-Morales, Mercedes, Anglada-Escudé, Guillem, Napiwotzki, Ralf, Osip, David, and Weinberger, Alycia

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

Characterizing the local space density of double degenerate binary systems is a complementary approach to broad sky surveys of double degenerates to determine the expected rates of white dwarf binary mergers, in particular those that may evolve into other observable phenomena such as extreme helium stars, Am CVn systems, and supernovae Ia. However, there have been few such systems detected in local space. We report here the discovery that WD 1242$-$105, a nearby bright WD, is a double-line spectroscopic binary consisting of two degenerate DA white dwarfs of similar mass and temperature, despite it previously having been spectroscopically characterized as a single degenerate. Follow-up photometry, spectroscopy, and trigonometric parallax have been obtained in an effort to determine the fundamental parameters of each component of this system. The binary has a mass ratio of 0.7 and a trigonometric parallax of 25.5 mas, placing it at a distance of 39 pc. The system's total mass is 0.95 M$_\odot$ and has an orbital period of 2.85 hours, making it the strongest known gravitational wave source ($\log h = -20.78$) in the mHz regime. Because of its orbital period and total mass, WD 1242$-$105 is predicted to merge via gravitational radiation on a timescale of 740 Myr, which will most likely not result in a catastrophic explosion., Comment: 22 pages, 5 figures, 2 tables; to appear in Astronomical Journal

Published

2015

44. 3C 273 host galaxy with Hubble Space Telescope coronagraphy

Author

Ren, Bin B., primary, Fogarty, Kevin, additional, Debes, John H., additional, Meyer, Eileen T., additional, Mo, Youbin, additional, Mawet, Dimitri, additional, Perrin, Marshall D., additional, Ogle, Patrick M., additional, and Sahlmann, Johannes, additional

Published

2024

45. A Uniform Analysis of Debris Disks with the Gemini Planet Imager. I. An Empirical Search for Perturbations from Planetary Companions in Polarized Light Images

Author

Crotts, Katie A., primary, Matthews, Brenda C., additional, Duchêne, Gaspard, additional, Esposito, Thomas M., additional, Dong, Ruobing, additional, Hom, Justin, additional, Oppenheimer, Rebecca, additional, Rice, Malena, additional, Wolff, Schuyler G., additional, Chen, Christine H., additional, Do Ó, Clarissa R., additional, Kalas, Paul, additional, Lewis, Briley L., additional, Weinberger, Alycia J., additional, Wilner, David J., additional, Ammons, Mark, additional, Arriaga, Pauline, additional, De Rosa, Robert J., additional, Debes, John H., additional, Fitzgerald, Michael P., additional, Gonzales, Eileen C., additional, Hines, Dean C., additional, Hinkley, Sasha, additional, Hughes, A. Meredith, additional, Kolokolova, Ludmilla, additional, Lee, Eve J., additional, López, Ronald A., additional, Macintosh, Bruce, additional, Mazoyer, Johan, additional, Metchev, Stanimir, additional, Millar-Blanchaer, Maxwell A., additional, Nielsen, Eric L., additional, Patience, Jenny, additional, Perrin, Marshall D., additional, Pueyo, Laurent, additional, Rantakyrö, Fredrik T., additional, Ren, Bin B., additional, Schneider, Glenn, additional, Soummer, Remi, additional, and Stark, Christopher C., additional

Published

2024

46. On the Morphology and Chemical Composition of the HR 4796A Debris Disk

Author

Rodigas, Timothy J., Stark, Christopher C., Weinberger, Alycia, Debes, John H., Hinz, Philip M., Close, Laird, Chen, Christine, Smith, Paul S., Males, Jared R., Skemer, Andrew J., Puglisi, Alfio, Follette, Katherine B., Morzinski, Katie, Wu, Ya-Lin, Briguglio, Runa, Esposito, Simone, Pinna, Enrico, Riccardi, Armando, Schneider, Glenn, and Xompero, Marco

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Earth and Planetary Astrophysics

Abstract

[abridged] We present resolved images of the HR 4796A debris disk using the Magellan adaptive optics system paired with Clio-2 and VisAO. We detect the disk at 0.77 \microns, 0.91 \microns, 0.99 \microns, 2.15 \microns, 3.1 \microns, 3.3 \microns, and 3.8 \microns. We find that the deprojected center of the ring is offset from the star by 4.76$\pm$1.6 AU and that the deprojected eccentricity is 0.06$\pm$0.02, in general agreement with previous studies. We find that the average width of the ring is 14$^{+3}_{-2}%$, also comparable to previous measurements. Such a narrow ring precludes the existence of shepherding planets more massive than \about 4 \mj, comparable to hot-start planets we could have detected beyond \about 60 AU in projected separation. Combining our new scattered light data with archival HST/STIS and HST/NICMOS data at \about 0.5-2 \microns, along with previously unpublished Spitzer/MIPS thermal emission data and all other literature thermal data, we set out to constrain the chemical composition of the dust grains. After testing 19 individual root compositions and more than 8,400 unique mixtures of these compositions, we find that good fits to the scattered light alone and thermal emission alone are discrepant, suggesting that caution should be exercised if fitting to only one or the other. When we fit to both the scattered light and thermal emission simultaneously, we find mediocre fits (reduced chi-square \about 2). In general, however, we find that silicates and organics are the most favored, and that water ice is usually not favored. These results suggest that the common constituents of both interstellar dust and solar system comets also may reside around HR 4796A, though improved modeling is necessary to place better constraints on the exact chemical composition of the dust., Comment: Accepted to ApJ on October 27, 2014. 21 pages, 12 figures, 4 tables

Published

2014

47. Probing for Exoplanets Hiding in Dusty Debris Disks: Disk Imaging, Characterization, and Exploration with HST/STIS Multi-Roll Coronagraphy

Author

Schneider, Glenn, Grady, Carol A., Hines, Dean C., Stark, Christopher C., Debes, John H., Carson, Joe, Kuchner, Marc J., Perrin, Marshall D., Weinberger, Alycia J., Wisniewski, John P., Silverstone, Murray D., Jang-Condell, Hannah, Henning, Thomas, Woodgate, Bruce E., Serabyn, Eugene, Moro-Martin, Amaya, Tamura, Motohide, Hinz, Phillip M., and Rodigas, Timothy J.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Earth and Planetary Astrophysics

Abstract

Spatially resolved scattered-light images of circumstellar (CS) debris in exoplanetary systems constrain the physical properties and orbits of the dust particles in these systems. They also inform on co-orbiting (but unseen) planets, systemic architectures, and forces perturbing starlight-scattering CS material. Using HST/STIS optical coronagraphy, we have completed the observational phase of a program to study the spatial distribution of dust in ten CS debris systems, and one "mature" protoplanetrary disk all with HST pedigree, using PSF-subtracted multi-roll coronagraphy. These observations probe stellocentric distances > 5 AU for the nearest stars, and simultaneously resolve disk substructures well beyond, corresponding to the giant planet and Kuiper belt regions in our Solar System. They also disclose diffuse very low-surface brightness dust at larger stellocentric distances. We present new results inclusive of fainter disks such as HD92945 confirming, and better revealing, the existence of a narrow inner debris ring within a larger diffuse dust disk. Other disks with ring-like sub-structures, significant asymmetries and complex morphologies include: HD181327 with a posited spray of ejecta from a recent massive collision in an exo-Kuiper belt; HD61005 suggested interacting with the local ISM; HD15115 & HD32297, discussed also in the context of environmental interactions. These disks, and HD15745, suggest debris system evolution cannot be treated in isolation. For AU Mic's edge-on disk, out-of-plane surface brightness asymmetries at > 5 AU may implicate one or more planetary perturbers. Time resolved images of the MP Mus proto-planetary disk provide spatially resolved temporal variability in the disk illumination. These and other new images from our program enable direct inter-comparison of the architectures of these exoplanetary debris systems in the context of our own Solar System., Comment: 109 pages, 43 figures, accepted for publication in the Astronomical Journal

Published

2014

48. Revealing Asymmetries in the HD 181327 Debris Disk: A Recent Massive Collision or ISM Warping

Author

Stark, Christopher C., Schneider, Glenn, Weinberger, Alycia J., Debes, John H., Grady, Carol A., Jang-Condell, Hannah, and Kuchner, Marc J.

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Earth and Planetary Astrophysics

Abstract

New multi-roll coronagraphic images of the HD 181327 debris disk obtained using the Space Telescope Imaging Spectrograph (STIS) on board the Hubble Space Telescope (HST) reveal the debris ring in its entirety at high S/N and unprecedented spatial resolution. We present and apply a new multi-roll image processing routine to identify and further remove quasi-static PSF-subtraction residuals and quantify systematic uncertainties. We also use a new iterative image deprojection technique to constrain the true disk geometry and aggressively remove any surface brightness asymmetries that can be explained without invoking dust density enhancements/deficits. The measured empirical scattering phase function for the disk is more forward scattering than previously thought and is not well-fit by a Henyey-Greenstein function. The empirical scattering phase function varies with stellocentric distance, consistent with the expected radiation pressured-induced size segregation exterior to the belt. Within the belt, the empirical scattering phase function contradicts unperturbed debris ring models, suggesting the presence of an unseen planet. The radial profile of the flux density is degenerate with a radially-varying scattering phase function; therefore estimates of the ring's true width and edge slope may be highly uncertain. We detect large scale asymmetries in the disk, consistent with either the recent catastrophic disruption of a body with mass >1% the mass of Pluto, or disk warping due to strong interactions with the interstellar medium (ISM)., Comment: Accepted for publication in ApJ

Published

2014

49. Does the Debris Disk around HD 32297 Contain Cometary Grains?

Author

Rodigas, Timothy J., Debes, John H., Hinz, Philip M., Mamajek, Eric E., Pecaut, Mark J., Currie, Thayne, Bailey, Vanessa, Defrere, Denis, De Rosa, Robert J., Hill, John M., Leisenring, Jarron, Schneider, Glenn, Skemer, Andrew J., Skrutskie, Michael, Vaitheeswaran, Vidhya, and Ward-Duong, Kimberly

Subjects

Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Solar and Stellar Astrophysics

Abstract

We present an adaptive optics imaging detection of the HD 32297 debris disk at L' (3.8 \microns) obtained with the LBTI/LMIRcam infrared instrument at the LBT. The disk is detected at signal-to-noise per resolution element ~ 3-7.5 from ~ 0.3-1.1" (30-120 AU). The disk at L' is bowed, as was seen at shorter wavelengths. This likely indicates the disk is not perfectly edge-on and contains highly forward scattering grains. Interior to ~ 50 AU, the surface brightness at L' rises sharply on both sides of the disk, which was also previously seen at Ks band. This evidence together points to the disk containing a second inner component located at $\lesssim$ 50 AU. Comparing the color of the outer (50 $< r$/AU $< 120$) portion of the disk at L' with archival HST/NICMOS images of the disk at 1-2 \microns allows us to test the recently proposed cometary grains model of Donaldson et al. 2013. We find that the model fails to match the disk's surface brightness and spectrum simultaneously (reduced chi-square = 17.9). When we modify the density distribution of the model disk, we obtain a better overall fit (reduced chi-square = 2.9). The best fit to all of the data is a pure water ice model (reduced chi-square = 1.06), but additional resolved imaging at 3.1 \microns is necessary to constrain how much (if any) water ice exists in the disk, which can then help refine the originally proposed cometary grains model., Comment: Accepted to ApJ January 13, 2014. 12 pages (emulateapj style), 9 figures, 1 table

Published

2014

50. The WIRED Survey. IV. New Dust Disks from the McCook & Sion White Dwarf Catalog

Author

Hoard, D. W., Debes, John H., Wachter, Stefanie, Leisawitz, David T., and Cohen, Martin

Subjects

Astrophysics - Astrophysics of Galaxies, Astrophysics - Solar and Stellar Astrophysics

Abstract

We have compiled photometric data from the Wide-field Infrared Survey Explorer All Sky Survey and other archival sources for the more than 2200 objects in the original McCook & Sion Catalog of Spectroscopically Identified White Dwarfs. We applied color-selection criteria to identify 28 targets whose infrared spectral energy distributions depart from the expectation for the white dwarf photosphere alone. Seven of these are previously known white dwarfs with circumstellar dust disks, five are known central stars of planetary nebulae, and six were excluded for being known binaries or having possible contamination of their infrared photometry. We fit white dwarf models to the spectral energy distributions of the remaining ten targets, and find seven new candidates with infrared excess suggesting the presence of a circumstellar dust disk. We compare the model dust disk properties for these new candidates with a comprehensive compilation of previously published parameters for known white dwarfs with dust disks. It is possible that the current census of white dwarfs with dust disks that produce an excess detectable at K-band and shorter wavelengths is close to complete for the entire sample of known WDs to the detection limits of existing near-IR all-sky surveys. The white dwarf dust disk candidates now being found using longer wavelength infrared data are drawn from a previously underrepresented region of parameter space, in which the dust disks are overall cooler, narrower in radial extent, and/or contain fewer emitting grains., Comment: accepted for publication in The Astrophysical Journal; 34 pages, 5 figures, 5 tables; added missing reference in Section 2 (p. 7)

Published

2013