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1. Mid-infrared followup of cold brown dwarfs: Diversity in age, mass and metallicity

Author

Pinfield D.J., Jones H.R.A., Warren S.J., Marley M.S., Saumon D., Burningham B., Leggett S.K., and Smart R.L.

Subjects
Physics, QC1-999
Abstract

We use Spitzer IRAC 3.6–8.0 μm photometry of late-type T dwarfs to investigate various trends which can aid the planning and interpretation of infrared (IR) surveys for the coldest T or Y dwarfs. Brown dwarfs with effective temperature (Teff)50% of their flux at λ>3 μm, and the ratio of the mid-IR to the near-IR flux becomes very sensitive to Teff. The color H − [4.5] is a good indicator of Teff with a weak dependence on metallicity ([m/H]) and gravity (g) while H −K and [4.5] − [5.8] are sensitive to [m/H] and g. Thus Teff and g can be constrained and mass and age can then be determined from evolutionary models. There are 12 dwarfs known with H − [4.5] > 3.0 and 500 ≲ Teff K ≲ 800, which we examine in detail. The ages of these dwarfs range from very young (0.1–1.0 Gyr) to old (3–12 Gyr). The mass range is possibly as low as 5 MJup to 70 MJup, and [m/H] also spans a large range of ~ −0.3 to ~ +0.3. The T8–T9 dwarfs found so far in the UKIRT IR Deep Sky Survey are unexpectedly young and low-mass. Extensions to the warm Spitzer and WISE space missions are needed to obtain mid-IR data for cold brown dwarfs, and to discover more of these rare objects.

Published
2011
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3. Review of the first charged-particle transport coefficient comparison workshop

Author

Grabowski, P.E., Hansen, S.B., Murillo, M.S., Stanton, L.G., Graziani, F.R., Zylstra, A.B., Baalrud, S.D., Arnault, P., Baczewski, A.D., Benedict, L.X., Blancard, C., Čertík, O., Clérouin, J., Collins, L.A., Copeland, S., Correa, A.A., Dai, J., Daligault, J., Desjarlais, M.P., Dharma-wardana, M.W.C., Faussurier, G., Haack, J., Haxhimali, T., Hayes-Sterbenz, A., Hou, Y., Hu, S.X., Jensen, D., Jungman, G., Kagan, G., Kang, D., Kress, J.D., Ma, Q., Marciante, M., Meyer, E., Rudd, R.E., Saumon, D., Shulenburger, L., Singleton, R.L., Jr., Sjostrom, T., Stanek, L.J., Starrett, C.E., Ticknor, C., Valaitis, S., Venzke, J., and White, A.

Published
2020
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5. A Review of Equation-of-State Models for Inertial Confinement Fusion Materials

Author

Gaffney, J.A., Hu, S.X., Arnault, P., Becker, A., Benedict, L.X., Boehly, T.R., Celliers, P.M., Ceperley, D.M., Čertík, O., Clérouin, J., Collins, G.W., Collins, L.A., Danel, J.-F., Desbiens, N., Dharma-wardana, M.W.C., Ding, Y.H., Fernandez-Pañella, A., Gregor, M.C., Grabowski, P.E., Hamel, S., Hansen, S.B., Harbour, L., He, X.T., Johnson, D.D., Kang, W., Karasiev, V.V., Kazandjian, L., Knudson, M.D., Ogitsu, T., Pierleoni, C., Piron, R., Redmer, R., Robert, G., Saumon, D., Shamp, A., Sjostrom, T., Smirnov, A.V., Starrett, C.E., Sterne, P.A., Wardlow, A., Whitley, H.D., Wilson, B., Zhang, P., and Zurek, E.

Published
2018
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7. Discovery and spectroscopy of the young jovian planet 51 Eri b with the Gemini Planet Imager

Author

Macintosh, B., Graham, J. R., Barman, T., De Rosa, R. J., Konopacky, Q., Marley, M. S., Marois, C., Nielsen, E. L., Pueyo, L., Rajan, A., Rameau, J., Saumon, D., Wang, J. J., Patience, J., Ammons, M., Arriaga, P., Artigau, E., Beckwith, S., Brewster, J., Bruzzone, S., Bulger, J., Burningham, B., Burrows, A. S., Chen, C., Chiang, E., Chilcote, J. K., Dawson, R. I., Dong, R., Doyon, R., Draper, Z. H., Duchêne, G., Esposito, T. M., Fabrycky, D., Fitzgerald, M. P., Follette, K. B., Fortney, J. J., Gerard, B., Goodsell, S., Greenbaum, A. Z., Hibon, P., Hinkley, S., Cotten, T. H., Hung, L.-W., Ingraham, P., Johnson-Groh, M., Kalas, P., Lafreniere, D., Larkin, J. E., Lee, J., Line, M., Long, D., Maire, J., Marchis, F., Matthews, B. C., Max, C. E., Metchev, S., Millar-Blanchaer, M. A., Mittal, T., Morley, C. V., Morzinski, K. M., Murray-Clay, R., Oppenheimer, R., Palmer, D. W., Patel, R., Perrin, M. D., Poyneer, L. A., Rafikov, R. R., Rantakyrö, F. T., Rice, E. L., Rojo, P., Rudy, A. R., Ruffio, J.-B., Ruiz, M. T., Sadakuni, N., Saddlemyer, L., Salama, M., Savransky, D., Schneider, A. C., Sivaramakrishnan, A., Song, I., Soummer, R., Thomas, S., Vasisht, G., Wallace, J. K., Ward-Duong, K., Wiktorowicz, S. J., Wolff, S. G., and Zuckerman, B.

Published
2015

12. Near-Infrared Spectroscopy of the Y0 WISEP J173835.52+273258.9 and the Y1 WISE J035000.32-565830.2: the Importance of Non-Equilibrium Chemistry

Author

Leggett, S. K, Tremblin, P, Saumon, D, Marley, M. S, Morley, Caroline V, Amundsen, D. S, Baraffe, I, and Chabrier, G

Subjects
Inorganic, Organic And Physical Chemistry, Astronomy, Astrophysics
Abstract

We present new near-infrared spectra, obtained at Gemini Observatory, for two Y dwarfs: WISE J035000.32−565830.2 (W0350) and WISEP J173835.52+273258.9 (W1738). A FLAMINGOS-2 R = 540 spectrum was obtained for W0350, covering 1.0 < λ micrometer < 1.7, and a cross-dispersed GNIRS R = 2800 spectrum was obtained for W1738, covering 0.993 - 1.087 micrometer, 1.191 - 1.305 micrometer, 1.589 - 1.631 micrometer, and 1.985 - 2.175 micrometer, in four orders. We also present revised Y JH photometry for W1738, using new NIRI Y and J imaging, and a re-analysis of the previously published NIRI H band images. We compare these data, together with previously published data for late-T and Y dwarfs, to cloud-free models of solar metallicity, calculated both in chemical equilibrium and with disequilibrium driven by vertical transport. We find that for the Y dwarfs the non-equilibrium models reproduce the near-infrared data better than the equilibrium models. The remaining discrepancies suggest that fine-tuning the CH4/CO and NH3/N2 balance is needed. Improved trigonometric parallaxes would improve the analysis. Despite the uncertainties and discrepancies, the models reproduce the observed near-infrared spectra well. We find that for the Y0, W1738, T(sub eff) = 425 +/- 25K and log g = 4.0 +/- 0.25, and for the Y1, W0350, T(sub eff) = 350 +/- 25K and log g = 4.0 +/- 0.25. W1738 may be metal-rich. Based on evolutionary models, these temperatures and gravities correspond to a mass range for both Y dwarfs of 3 - 9 Jupiter masses, with W0350 being a cooler, slightly older, version of W1738; the age of W0350 is 0.3 - 3 Gyr, and the age of W1738 is 0.15 - 1 Gyr.

Published
2016
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13. PLANETARY SCIENCE: Discovery and spectroscopy of the young jovian planet 51 Eri b with the Gemini Planet Imager

Author

Macintosh, B., Graham, J. R., Barman, T., De Rosa, R. J., Konopacky, Q., Marley, M. S., Marois, C., Nielsen, E. L., Pueyo, L., Rajan, A., Rameau, J., Saumon, D., Wang, J. J., Patience, J., Ammons, M., Arriaga, P., Artigau, E., Beckwith, S., Brewster, J., Bruzzone, S., Bulger, J., Burningham, B., Burrows, A. S., Chen, C., Chiang, E., Chilcote, J. K., Dawson, R. I., Dong, R., Doyon, R., Draper, Z. H., Duchêne, G., Esposito, T. M., Fabrycky, D., Fitzgerald, M. P., Follette, K. B., Fortney, J. J., Gerard, B., Goodsell, S., Greenbaum, A. Z., Hibon, P., Hinkley, S., Cotten, T. H., Hung, L.-W., Ingraham, P., Johnson-Groh, M., Kalas, P., Lafreniere, D., Larkin, J. E., Lee, J., Line, M., Long, D., Maire, J., Marchis, F., Matthews, B. C., Max, C. E., Metchev, S., Millar-Blanchaer, M. A., Mittal, T., Morley, C. V., Morzinski, K. M., Murray-Clay, R., Oppenheimer, R., Palmer, D. W., Patel, R., Perrin, M. D., Poyneer, L. A., Rafikov, R. R., Rantakyrö, F. T., Rice, E. L., Rojo, P., Rudy, A. R., Ruffio, J.-B., Ruiz, M. T., Sadakuni, N., Saddlemyer, L., Salama, M., Savransky, D., Schneider, A. C., Sivaramakrishnan, A., Song, I., Soummer, R., Thomas, S., Vasisht, G., Wallace, J. K., Ward-Duong, K., Wiktorowicz, S. J., Wolff, S. G., and Zuckerman, B.

Published
2015

21. New model atmospheres for very cool white dwarfs with mixed H/He and pure He compositions

Author

Bergeron, P, Saumon, D, and Wesemael, F

Subjects
Astrophysics
Abstract

New model atmosphere calculations for very cool white dwarfs with mixed H/He and pure He compositions are presented. The hydrogen-rich models incorporate improved cross section calculations of the collision-induced absorption by molecular hydrogen due to collisions with H2, H, and He. The effects associated with variations in the effective temperature (T(sub eff) greater than or equal to 4000 and less than or equal to 10,000 K), the surface gravity (log g greater than or equal to 7.5 and less than or equal to 9.5), and the chemical composition (N(He)/N(H) greater than or equal to O and less than or equal to 100) are investigated. Results from earlier calculations are confirmed qualitatively, but a more detailed comparison reveals large quantitative deviations. Cool white dwarfs with mixed H/He chemical compositions are shown to be easily recognizable from their predicted strong infrared flux deficiency. Pure helium model calculations are described as well. These include a modified version of the recently developed equation of state of D. Saumon and G. Chabrier. Nonideal effects brought about by various equations of state are explored in detail. For the purpose of this analysis, a model of pressure ionization based on an accurate description of the interactions in a mostly atomic helium fluid is developed. The effects of pressure ionization are shown to be the most important issue in the model calculations. A critical discussion of previous generations of pure helium model calculations is presented. Finally, broadband color indices are provided for the complete model grid.

Published
1995
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22. Cool zero-metallicity stellar atmospheres

Author

Saumon, D, Bergeron, P, Lunine, J. I, Hubbard, W. B, and Burrows, A

Subjects
Astrophysics
Abstract

Very low mass stars and brown dwarfs have low effective temperatures and their atmospheric opacities are provided by heavy elements which form a host of strongly absorbing molecules. We present a study of the atmospheres and emergent spectra of these objects in the limiting case of zero metallicity. A grid of atmosphere models is presented, based on updated opacities for H/He mixtues, in particular for the collision-induced absorption by H2 which plays an important role in these atmospheres. The emergent spectra bear little resemblance to the corresponding blackbody emission and become bluer as the effective temperature is lowered. The atmosphere models are coupled with interior calculations to obtain accurate physical and photometric characteristics for the low-mass end of the zero-metallicity main sequence. This provides a useful boundary in the Hertzsprung-Russel diagram to interpret observations of low-metallicity stars.

Published
1994
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23. An expanded set of brown dwarf and very low mass star models

Author

Burrows, A, Hubbard, W. B, Saumon, D, and Lunine, J. I

Subjects
Astrophysics
Abstract

We present in this paper updated and improved theoretical models of brown dwarfs and late M dwarfs. The evolution and characteristics of objects between 0.01 and 0.2 solar mass are exhaustively investigated and special emphasis is placed on their properties at early ages. The dependence on the helium fraction, deuterium fraction, and metallicity of the masses, effective temperature and luminosities at the edge of the hydrogen main sequence are calculated. We derive luminosity functions for representative mass functions and compare our predictions to recent cluster data. We show that there are distinctive features in the theoretical luminosity functions that can serve as diagnostics of brown dwarf physics. A zero-metallicity model is presented as a bound to or approximation of a putative extreme halo population.

Published
1993
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24. Diffusion Coefficients in the Envelopes of White Dwarfs.

Author

Heinonen, R. A., Saumon, D., Daligault, J., Starrett, C. E., Baalrud, S. D., and Fontaine, G.

Subjects
*WHITE dwarf stars, *DIFFUSION coefficients, *PLANETESIMALS, *MOLECULAR dynamics, *DIFFUSION
Abstract

The diffusion of elements is a key process in understanding the unusual surface composition of white dwarfs and their spectral evolution. The diffusion coefficients of Paquette et al. have been widely used to model diffusion in white dwarfs. We perform new calculations of the coefficients of interdiffusion and ionic thermal diffusion with (1) a more advanced model that uses a recent modification of the calculation of the collision integrals that is more suitable for the partially ionized, partially degenerate, and moderately coupled plasma and (2) classical molecular dynamics. The coefficients are evaluated for silicon and calcium in white dwarf envelopes of hydrogen and helium. A comparison of our results with Paquette et al. shows that the latter systematically underestimates the coefficient of interdiffusion yet provides reliable estimates for the relatively weakly coupled plasmas found in nearly all types of stars, as well as in white dwarfs with hydrogen envelopes. In white dwarfs with cool helium envelopes (< 15,000 K), the difference grows to more than a factor of two. We also explored the effect of the ionization model used to determine the charges of the ions and found that it can be a substantial source of discrepancy between different calculations. Finally, we consider the relative diffusion timescales of Si and Ca in the context of the pollution of white dwarf photospheres by accreted planetesimals and find factor of ≳3 differences between calculations based on Paquette et al. and our model. [ABSTRACT FROM AUTHOR]

Published
2020
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25. Discovery and spectroscopy of the young jovian planet 51 Eri b with the Gemini Planet Imager

Author

Macintosh, B, Graham, JR, Barman, T, De Rosa, RJ, Konopacky, Q, Marley, MS, Marois, C, Nielsen, EL, Pueyo, L, Rajan, A, Rameau, J, Saumon, D, Wang, JJ, Patience, J, Ammons, M, Arriaga, P, Artigau, E, Beckwith, S, Brewster, J, Bruzzone, S, Bulger, J, Burningham, B, Burrows, AS, Chen, C, Chiang, E, Chilcote, JK, Dawson, RI, Dong, R, Doyon, R, Draper, ZH, Duchêne, G, Esposito, TM, Fabrycky, D, Fitzgerald, MP, Follette, KB, Fortney, JJ, Gerard, B, Goodsell, S, Greenbaum, AZ, Hibon, P, Hinkley, S, Cotton, TH, Hung, LW, Ingraham, P, Johnson-Groh, M, Kalas, P, Lafreniere, D, Larkin, JE, Lee, J, Line, M, Long, D, Maire, J, Marchis, F, Matthews, BC, Max, CE, Metchev, S, Millar-Blanchaer, MA, Mittal, T, Morley, CV, Morzinski, KM, Murray-Clay, R, Oppenheimer, R, Palmer, DW, Patel, R, Perrin, MD, Poyneer, LA, Rafikov, RR, Rantakyrö, FT, Rice, EL, Rojo, P, Rudy, AR, Ruffio, JB, Ruiz, MT, Sadakuni, N, Saddlemyer, L, Salama, M, Savransky, D, Schneider, AC, Sivaramakrishnan, A, Song, I, Soummer, R, Thomas, S, and Vasisht, G

Subjects
Astrophysics::High Energy Astrophysical Phenomena, Astrophysics::Solar and Stellar Astrophysics, Astrophysics::Cosmology and Extragalactic Astrophysics, Astrophysics::Earth and Planetary Astrophysics, Astrophysics::Galaxy Astrophysics
Abstract

Directly detecting thermal emission from young extrasolar planets allows measurement of their atmospheric compositions and luminosities, which are influenced by their formation mechanisms. Using the Gemini Planet Imager, we discovered a planet orbiting the ∼20-million-year-old star 51 Eridani at a projected separation of 13 astronomical units. Near-infrared observations show a spectrum with strong methane and water-vapor absorption. Modeling of the spectra and photometry yields a luminosity (normalized by the luminosity of the Sun) of 1.6 to 4.0 × 10-6and an effective temperature of 600 to 750 kelvin. For this age and luminosity, "hot-start" formation models indicate a mass twice that of Jupiter. This planet also has a sufficiently low luminosity to be consistent with the "cold-start" core-accretion process that may have formed Jupiter.

Published
2015

26. Application of hard sphere perturbation theory to a high-temperature binary mixture.

Author

Saumon, D., Chabrier, G., and Weis, J. J.

Subjects
*THERMODYNAMICS, *PERTURBATION theory, *MONTE Carlo method
Abstract

We calculate the thermodynamics of a high-temperature binary mixture (kT/ε>50) using a WCA fluid perturbation theory and hard sphere reference system. The problems of the softness of the repulsive core and the nonadditivity of the hard sphere diameters can be successfully circumvented by using appropriate separations between the reference and the perturbation potentials, as shown by comparing the results with Monte Carlo simulations. [ABSTRACT FROM AUTHOR]

Published
1989
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27. Diffusion coefficients in white dwarfs

Author

Saumon, D., Starrett, C. E., and Daligault, J.

Subjects
Plasma Physics (physics.plasm-ph), Astrophysics - Solar and Stellar Astrophysics, Physics::Plasma Physics, FOS: Physical sciences, Solar and Stellar Astrophysics (astro-ph.SR), Physics - Plasma Physics
Abstract

Models of diffusion in white dwarfs universally rely on the coefficients calculated by Paquette et al. (1986). We present new calculations of diffusion coefficients based on an advanced microscopic theory of dense plasmas and a numerical simulation approach that intrinsically accounts for multiple collisions. Our method is validated against a state-of-the-art method and we present results for the diffusion of carbon ions in a helium plasma., 4 pages, 1 figure, to appear in the proceedings of the 19th European White Dwarf Workshop held August 11-15, 2014 in Montreal, Canada

Published
2014

28. The properties of the T8.5p dwarf Ross 458C

Author

Burningham, Ben, Leggett, S. K., Homeier, D., Saumon, D., Lucas, P. W., Pinfield, D. J., Tinney, C. G., Allard, F., Marley, M. S., Jones, H. R. A., Murray, D. N., Ishii, M., Day-Jones, A. C., Gomes, J., and Zhang, Z. H.

Subjects
Earth and Planetary Astrophysics (astro-ph.EP), Astrophysics - Solar and Stellar Astrophysics, FOS: Physical sciences, Solar and Stellar Astrophysics (astro-ph.SR), Astrophysics - Earth and Planetary Astrophysics
Abstract

We present near-infrared photometry and spectroscopy, and warm-Spitzer IRAC photometry of the young very cool T dwarf Ross 458C, which we have typed as T8.5p. By applying the fiducial age constraints (< 1Gyr) imposed by the properties of the active M dwarf Ross 458A, we have used these data to determine that Ross 458C has Teff = 695 \pm 60K, log g = 4.0 - 4.7 and an inferred mass of 5-20 MJup. We have compared fits of the near-infrared spectrum and IRAC photometry to the BT Settl and Saumon & Marley model grids, and have found that both sets provide best fits that are consistent with our derived properties, whilst the former provide a marginally closer match to the data for all scenarios explored here. The main difference between the model grids arises in the 4.5��m region, where the BT Settl models are able to better predict the flux through the IRAC filter, suggesting that non-equilibrium effects on the CO-CO2 ratio are important for shaping the mid-infrared spectra of very cool T dwarfs. We have also revisited the issue of dust opacity in the spectra of Ross 458C that was raised by Burgasser et al (2010). We have found that the BT Settl models which also incorporate a condensate cloud model, provide a better match to the near-infrared spectrum of this target than the Saumon & Marley model with fsed = 2, and we briefly discuss the influence of condensate clouds on T dwarf spectra., 11 pages, 7 figures. Accepted for publication in MNRAS. V2 corrected typos in author names

Published
2011

29. Spitzer Mid-Infrared Photometry of 500 - 750 K Brown Dwarfs

Author

Leggett, S. K., Albert, L., Artigau, E., Burningham, Ben, Delfosse, X., Delorme, P., Forveille, T., Lucas, P. W., Marley, M. S., Pinfield, D. J., Reyle, C., Saumon, D., Smart, R. L., Warren, S. J., and Debray, Bernard

Subjects
Astrophysics - Solar and Stellar Astrophysics, FOS: Physical sciences, [PHYS.ASTR] Physics [physics]/Astrophysics [astro-ph], Solar and Stellar Astrophysics (astro-ph.SR), ComputingMilieux_MISCELLANEOUS
Abstract

Mid-infrared data, including Spitzer warm-IRAC [3.6] and [4.5] photometry, is critical for understanding the cold population of brown dwarfs now being found, objects which have more in common with planets than stars. As effective temperature (T_eff) drops from 800 K to 400 K, the fraction of flux emitted beyond 3 microns increases rapidly, from about 40% to >75%. This rapid increase makes a color like H-[4.5] a very sensitive temperature indicator, and it can be combined with a gravity- and metallicity-sensitive color like H-K to constrain all three of these fundamental properties, which in turn gives us mass and age for these slowly cooling objects. Determination of mid-infrared color trends also allows better exploitation of the WISE mission by the community. We use new Spitzer Cycle 6 IRAC photometry, together with published data, to present trends of color with type for L0 to T10 dwarfs. We also use the atmospheric and evolutionary models of Saumon & Marley to investigate the masses and ages of 13 very late-type T dwarfs, which have H-[4.5] > 3.2 and T_eff ~ 500 K to 750 K., To be published in the on-line version of the Proceedings of Cool Stars 16 (ASP Conference Series). This is an updated version of Leggett et al. 2010 ApJ 710 1627; a photometry compilation is available at http://www.gemini.edu/staff/sleggett

Published
2011

30. A Spitzer Infrared Spectrograph Spectral Sequence of M, L, and T Dwarfs

Author

Cushing, Michael C., Roellig, Thomas L., Marley, Mark S., Saumon, D., Leggett, S. K., Kirkpatrick, J. Davy, Wilson, John C., Sloan, G. C., Mainzer, Amy K., Van-Cleve, Jeff E., and Houck, James R.

Abstract

We present a low-resolution (R ≡ λ/Δλ ≈ 90), 5.5-38 μm spectral sequence of a sample of M, L, and T dwarfs obtained with the Infrared Spectrograph (IRS) on board the Spitzer Space Telescope. The spectra exhibit prominent absorption bands of H_2O at 6.27 μm, CH_4 at 7.65 μm, and NH_3 at 10.5 μm and are relatively featureless at λ ≳ 15 μm. Three spectral indices that measure the strengths of these bands are presented; H_2O absorption features are present throughout the MLT sequence, while the CH_4 and NH_3 bands first appear at roughly the L/T transition. Although the spectra are, in general, qualitatively well matched by synthetic spectra that include the formation of spatially homogeneous silicate and iron condensate clouds, the spectra of the mid-type L dwarfs show an unexpected flattening from roughly 9 to 11 μm. We hypothesize that this may be a result of a population of small silicate grains that are not predicted in the cloud models. The spectrum of the peculiar T6 dwarf 2MASS J0937+2931 is suppressed from 5.5 to 7.5 μm relative to typical T6 dwarfs and may be a consequence of its mildly metal-poor/high surface gravity atmosphere. Finally, we compute bolometric luminosities of a subsample of the M, L, and T dwarfs by combining the IRS spectra with previously published 0.6-4.1 μm spectra and find good agreement with the values of Golimowski et al., who use L'- and M'-band photometry to account for the flux emitted at λ > 2.5 μm.

Published
2006

31. Retrieval of atmospheric properties of cloudy L dwarfs.

Author

Burningham, Ben, Marley, M. S., Line, M. R., Lupu, R., Visscher, C., Morley, C. V., Saumon, D., and Freedman, R.

Subjects
DWARF stars, OPACITY (Optics), NEAR infrared radiation, STELLAR atmospheres, ALTITUDES
Abstract

We present the first results from applying the spectral inversion technique in the cloudy L dwarf regime. Our newframework provides a flexible approach to modelling cloud opacity which can be built incrementally as the data require and improves upon previous retrieval experiments in the brown dwarf regime by allowing for scattering in two-stream radiative transfer. Our first application of the tool to two mid-L dwarfs is able to reproduce their near-infrared spectra far more closely than grid models. Our retrieved thermal, chemical and cloud profiles allow us to estimate Teff = 1796+23-25 K and log g = 5.21+0.05-0.08 for 2MASS J05002100+0330501, and for 2MASSW J2224438-015852 we find Teff = 1723+18-19 K and log g = 5.31+0.04-0.08, in close agreement with previous empirical estimates. Our best model for both objects includes an optically thick cloud deck which passes τ cloud ≥ 1 (looking down) at a pressure of around 5 bar. The temperature at this pressure is too high for silicate species to condense, and we argue that corundum and/or iron clouds are responsible for this cloud opacity. Our retrieved profiles are cooler at depth and warmer at altitude than the forward grid models that we compare, and we argue that some form of heating mechanism may be at work in the upper atmospheres of these L dwarfs. We also identify anomalously high CO abundance in both targets, which does not correlate with the warmth of our upper atmospheres or our choice of cloud model, and find similarly anomalous alkali abundance for one of our targets. These anomalies may reflect unrecognized shortcomings in our retrieval model or inaccuracies in our gas phase opacities. [ABSTRACT FROM AUTHOR]

Published
2017
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32. Non-Ideal Equation of State, Refraction and Opacities in Very Cool, Helium-Rich White Dwarf Atmospheres

Author

Kowalski, P. M., Saumon, D., Mazevet, S., Koester, D., Moehler, S., and 0 Pre-GFZ, Departments, GFZ Publication Database, Deutsches GeoForschungsZentrum

Subjects
Astrophysics (astro-ph), FOS: Physical sciences, Astrophysics::Solar and Stellar Astrophysics, 550 - Earth sciences, Astrophysics::Earth and Planetary Astrophysics, Astrophysics
Abstract

The atmospheres of cool, helium-rich white dwarfs constitute an exotic and poorly explored physical regime of stellar atmospheres. Under physical conditions where the temperature varies from $\rm 1000K$ to $\rm 10000K$, the density can reach values as large as $\rm 2 g/cm^{3}$, and the pressure is as high as $\rm 1 Mbar$, the atmosphere is no longer an ideal gas and must be treated as a dense fluid. Helium atoms become strongly correlated and refraction effects are present. Opacity sources such as $\rm He^{-}$ free-free absorption must be calculated with a formalism that has never been applied to astrophysical opacities. These effects have been ignored in previous models of cool white dwarf atmospheres., 6 pages, 5 figures, to appear in the proceedings of 14th European Workshop on White Dwarfs

Published
2004

33. The L to T Dwarf Transition

Author

Marley, M. S., Cushing, M. C., and Saumon, D.

Subjects
Astrophysics (astro-ph), FOS: Physical sciences, Astrophysics::Solar and Stellar Astrophysics, Astrophysics::Earth and Planetary Astrophysics, Astrophysics, Astrophysics::Galaxy Astrophysics
Abstract

While the precise mechanism responsible for the L to T dwarf transition remains unclear, it is clearly caused by changing cloud characteristics. Here we briefly review data relevant to understanding the nature of the transition and argue that changing atmospheric dynamics produce the transition by opening holes through the global iron and silicate cloud decks. Other possibilities, such as a sudden vertical collapse in these cloud decks are also considered. Any acceptable model of the L to T transition must ultimately connect changing cloud properties to the underlying atmospheric dynamics., 4 pages, 6 figures, proceedings from the 13th Cambridge Workshop on Cool Stars, Stellar Systems, and the Sun, Hamburg, Germany, July 2004, ESA-SP, in press

Published
2004

34. Search For Oxygen in Cool DQ White Dwarf Atmospheres

Author

Kilic, M., Winget, D. E., von Hippel, T., Lester, D. F., and Saumon, D.

Subjects
Astrophysics (astro-ph), FOS: Physical sciences, Astrophysics::Solar and Stellar Astrophysics, Astrophysics::Earth and Planetary Astrophysics, Astrophysics, Astrophysics::Galaxy Astrophysics
Abstract

We report new infrared spectroscopic observations of cool DQ white dwarfs by using Coolspec on the 2.7m Harlan-Smith Telescope. DQs have helium-rich atmospheres with traces of molecular carbon thought to be the result of convective dredge-up from their C/O interiors. Recent model calculations predict that oxygen should also be present in DQ atmospheres in detectable amounts. Our synthetic spectra calculations for He-rich white dwarfs with traces of C and O indicate that CO should be easily detected in the cool DQ atmospheres if present in the expected amounts. Determination of the oxygen abundance in the atmosphere will reveal the C/O ratio at the core/envelope boundary, constraining the important and uncertain ^{12}C(alpha,gamma)^{16}O reaction rate., 2 pages, 2 figures, to appear in proceedings of the 13th European Workshop on White Dwarfs

Published
2002

36. Response to Technical Comments regarding the paper 'Direct Detection of Galactic Halo Dark Matter'

Author

Rebecca Oppenheimer, Hambly, N. C., Digby, A. P., Hodgkin, S. T., and Saumon, D.

Subjects
Astrophysics (astro-ph), FOS: Physical sciences, Astrophysics
Abstract

We reply to the criticism of Gibson & Flynn and of Graff regarding "Direct detection of galactic halo dark matter" by Oppenheimer et al. (2001) (Science, Vol. 292, p. 698), which reported on the discovery of a significant population of halo white dwarfs found in our South Galactic Cap survey. None of their arguments against our claims withstand close scrutiny., Accepted for publication in Science, 4 pages, no figures

Published
2001

37. The Spectral Character of Giant Planets and Brown Dwarfs

Author

Burrows, A., Marley, M., Hubbard, W. B., Sudarsky, D., Sharp, C., Lunine, J. I., Guillot, T., Saumon, D., and Freedman, R.

Subjects
Astrophysics (astro-ph), FOS: Physical sciences, Astrophysics
Abstract

Since October of 1995, employing Doppler spectroscopy astronomers have discovered as many as 20 giant planets and brown dwarfs, including companions to $\tau$ Boo, 51 Peg, $\upsilon$ And, 55 Cnc, $\rho$ CrB, 70 Vir, 16 Cyg B, and 47 UMa. These discoveries have excited the planetary science community, astronomers, and the public at large. Within hours of the announcement of the planet 51 Peg b, the first direct detection of an unimpeachable brown dwarf, Gl229 B, was also announced. Gl229 B is a watershed since it has methane spectral features and a surface temperature below 1000 Kelvin, characteristics unique to objects with substellar masses. During the last two years, building upon our previous experience in the modeling of brown dwarfs and M stars, we published theoretical studies of the evolution and spectra of extrasolar giant planets. We have recently upgraded our capabilities and now generate non-gray spectral and color models of both giant planets and brown dwarfs. This theory will soon encompass objects whose effective temperatures range from 100 K to 4000 K and whose masses span three orders of magnitude. The evolutionary, spectral, and color calculations upon which we have embarked are in direct support of the searches now being planned in earnest with the HST (WFPC2, NICMOS), the IRTF, the MMT 6.5-meter upgrade, the LBT, Keck's I and II, ISO, UKIRT, NGST, the VLT, COROT, DENIS, 2MASS, and SIRTF., Comment: 20 pages, LaTeX, five Postscript files, two tables, to be published in the Proceedings of the "Tenth Cambridge Workshop on Cool Stars, Stellar Systems, and the Sun"

Published
1997

38. Advances in the Theory of Extrasolar Giant Planets and Brown Dwarfs

Author

Burrows, A., Sudarsky, D., Sharp, C., Marley, M., Hubbard, W. B., Lunine, J. I., Guillot, T., Saumon, D., and Freedman, R.

Subjects
Astrophysics (astro-ph), FOS: Physical sciences, Astrophysics::Solar and Stellar Astrophysics, Astrophysics::Cosmology and Extragalactic Astrophysics, Astrophysics::Earth and Planetary Astrophysics, Astrophysics, Astrophysics::Galaxy Astrophysics
Abstract

We have developed a new non-gray theory of the evolution, spectra, and colors of extrasolar giant planets (EGPs) and brown dwarfs that reveals their exotic nature and uniqueness. We have discovered that the fluxes of such objects for T$_{eff}$s from 1300 K to 100 K can be spectacularly higher in the near infrared bands than black body values and that their infrared colors are anomalously blue. As a consequence, EGPs and brown dwarfs reside in hitherto unoccupied realms of the H--R diagram and may be more easily found with current and planned telescopes than previously imagined., 19 pages total, LaTeX, 9 figures, to be published in the proceedings of the workshop "Brown Dwarfs and Extrasolar Planets," held in Tenerife, Spain, March 17 - 21, 1997

Published
1997

40. Fluid hydrogen at high density - The plasma phase transition

Author

Saumon, D and Chabrier, G

Subjects
Plasma Physics
Abstract

A new model equation of state is applied, based on realistic interparticle potentials and a self-consistent treatment of the internal levels, to fluid hydrogen at high density. This model shows a strong connection between molecular dissociation and pressure ionization. The possibility of a first-order plasma phase transition is considered, and for which both the evolution in temperature and the critical point is given.

Published
1989
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41. Models of the elastic x-ray scattering feature for warm dense aluminum.

Author

Starrett, C. E. and Saumon, D.

Subjects
*ALUMINUM, *X-ray scattering, *IONIC structure, *MOLECULAR dynamics, *THOMAS-Fermi model
Abstract

The elastic feature of x-ray scattering from warm dense aluminum has recently been measured by Fletcher et al. [Nature Photonics 9, 274 (2015)] with much higher accuracy than had hitherto been possible. This measurement is a direct test of the ionic structure predicted by models of warm dense matter. We use the method of pseudoatom molecular dynamics to predict this elastic feature for warm dense aluminum with temperatures of 1-100 eV and densities of 2.7-8.1 g/cm3. We compare these predictions to experiments, finding good agreement with Fletcher et al. and corroborating the discrepancy found in analyses of an earlier experiment of Ma et al. [Phys. Rev. Lett. 110, 065001 (2013)]. We also evaluate the validity of the Thomas-Fermi model of the electrons and of the hypernetted chain approximation in computing the elastic feature and find them both wanting in the regime currently probed by experiments. [ABSTRACT FROM AUTHOR]

Published
2015
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42. The 0.8 to 14.5 μm Spectral Energy Distributions of Mid-L to Mid-T Dwarfs.

Author

Stephens, D. C., Leggett, S. K., Marley, Mark S., Saumon, D., Cushing, Michael C., Geballe, T. R., Golimowski, D. A., Xiaohui Fan, and Noll, K. S.

Subjects
DWARF stars, SPECTRAL energy distribution, STELLAR photospheres, INFRARED spectroscopy, STARS
Abstract

We fit theoretical model atmospheres to the spectral energy distribution of 21 L and T dwarfs recently observed with the Spitzer Space Telescope to identify and isolate four key physical parameters used in the model characterization of their atmospheres. The wide range of wavelengths observed (∼0.6 to 14.5 μm) lets us constrain almost independently the four model parameters used to describe these photospheres: effective temperature (Teff), grain sedimentation (fsed), vertical gas transport efficiency (Kzz), and gravity. We find that the ratio of the mid-infrared to near-infrared flux is a good indicator of Teff, while the slope in the near-infrared is strongly dependent on fsed. The CH4 bands found at 2, 3 and 8 μm are sensitive to the timescale for vertical mixing, and gravity will influence the flux at 2 μm. [ABSTRACT FROM AUTHOR]

Published
2009
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43. The 600 K T9 Dwarfs: Analysis of the Spectral Energy Distributions.

Author

Leggett, S. K., Burningham, Ben, Cushing, Michael C., Marley, M. S., Pinfield, D. J., Saumon, D., Smart, Richard L., and Warren, S. J.

Subjects
DWARF stars, SPECTRUM analysis, SPECTRAL energy distribution, INFRARED spectra, ELECTROMAGNETIC measurements
Abstract

We present 8–15 μm spectra of ULAS J003402.77-005206.7, an extremely late-type T dwarf. We fit synthetic spectra to the near- through mid-infrared energy distribution of this dwarf, as well as to the near-infrared spectra of two similar dwarfs, ULAS J133553.45+113005.2 and CFBDS J005910.82-011401.3. The fit to ULAS J133553.45+113005.2 is constrained using mid-infrared photometry. We derive effective temperatures of 550–600 K for all three of these T9 dwarfs; ULAS J003402.77-005206.7 appears to be the least massive (5–30 MJup), and CFBDS J005910.82-011401.3 the most massive (30–50 MJup). [ABSTRACT FROM AUTHOR]

Published
2009
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44. A NEW TABULAR EOS FOR HYDROGEN ISOTOPES.

Author

Saumon, D.

Subjects
*HYDROGEN isotopes, *FLUID mechanics, *LOW temperatures, *MECHANICAL shock, *CONDENSED matter
Abstract

The Saumon-Chabrier EOS model for hydrogen has been greatly improved,expanded to cover new physical regimes, and generalized to all three isotopes of hydrogen. The new table covers 4<=T<=109 K and 10-10<=ρ<=103 g/cm3. At low temperatures, gaseous, liquid and solid molecular phases are included, as well as the monatomic solid plasma. The fluid phase is based on the chemical picture that describes interacting H2, H, H+ and electrons. Quantum corrections for the dense molecular, atomic and ionic fluids are included. The plasma model considers electron degeneracy, screening, relativistic effects, as well as strong plasma coupling. Interactions between charged and neutral particles have received particular attention as they control the pressure ionization of hydrogen. Notably, we found that previous predictions of a first order “plasma phase transition” based on this type of model are inherent to their construction and are not credible. This new model does not predict such a transition. A brief overview of the model is followed by comparisons with dynamic compression data and ab initio simulations. [ABSTRACT FROM AUTHOR]

Published
2007
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45. He Conductivity in Cool White Dwarf Atmospheres.

Author

Lebedev, Sergey V., Mazevet, S., Challacombe, M., Saumon, D., and Kowalski, P. M.

Abstract

We investigate the conductivity of warm dense helium under conditions found in the atmospheres of cool white dwarfs using ab initio simulations. The calculations performed consist of quantum molecular dynamics simulations where the electronic wavefunction at each time step is obtained using density functional theory, while the ion trajectories are calculated using the resulting quantum mechanical forces. We use both conventional DFT (PW91) and hybrid (PBE0) functionals to calculate the conductivities that provide an estimate of the ionization fraction. While the calculations are in good agreement with the measurements for the equation of state, a significant discrepancy exists with the recently measured conductivity. [ABSTRACT FROM AUTHOR]

Published
2007
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46. Hydrogen and Helium at High Density and Astrophysical Implications.

Author

Lebedev, Sergey V., Chabrier, G., Saumon, D., and Winisdoerffer, C.

Abstract

We briefly summarize the present status of theoretical and experimental investigations aimed at describing the thermodynamic properties of hydrogen and helium at high density. We confront various theoretical models to presently available experiments and we consider the astrophysical implications for giant planet interiors. [ABSTRACT FROM AUTHOR]

Published
2007
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47. Shock Compression of Deuterium at Mbar Pressures and the Interior of Jupiter.

Author

Saumon, D. and Guillot, T.

Subjects
*DEUTERIUM, *EQUATIONS of state, *PHYSICAL & theoretical chemistry, *PROPERTIES of matter, *HYDROGEN
Abstract

It is of great interest to planetary science to understand how the current experimental uncertainty on the hydrogen EOS affects the inferred structure of Jupiter. In particular, the mass of a core of heavy elements (other than H and He) and the total amount and distribution of heavy elements are very sensitive to the EOS of hydrogen and constitute important clues to its formation process. We present a study of the range of structures allowed by the current uncertainty in the hydrogen EOS. We show that an improved experimental understanding of hydrogen at Mbar pressures is necessary to put firm limits on the internal structure of Jupiter. © 2004 American Institute of Physics [ABSTRACT FROM AUTHOR]

Published
2004
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48. Integral equation model for warm and hot dense mixtures.

Author

Starrett, C. E., Saumon, D., Daligault, J., and Hamel, S.

Subjects
*INTEGRAL equations, *DENSITY functional theory, *FLUID-structure interaction, *IONIC structure, *ELECTRONIC structure, *MOLECULAR dynamics, *CHEMICAL bonds
Abstract

In a previous work [C. E. Starrett and D. Saumon, Phys. Rev. E 87,013104 (2013)] a model for the calculation of electronic and ionic structures of warm and hot dense matter was described and validated. In that model the electronic structure of one atom in a plasma is determined using a density-functional-theory-based average-atom (AA) model and the ionic structure is determined by coupling the AA model to integral equations governing the fluid structure. That model was for plasmas with one nuclear species only. Here we extend it to treat plasmas with many nuclear species, i.e., mixtures, and apply it to a carbon-hydrogen mixture relevant to inertial confinement fusion experiments. Comparison of the predicted electronic and ionic structures with orbital-free and Kohn-Sham molecular dynamics simulations reveals excellent agreement wherever chemical bonding is not significant. [ABSTRACT FROM AUTHOR]

Published
2014
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49. RESOLVED SPECTROSCOPY OF THE T8.5 AND Y0-0.5 BINARY WISEPC J121756.91+162640.2AB.

Author

Leggett, S. K., Liu, Michael C., Dupuy, Trent J., Morley, Caroline V., Marley, M. S., and Saumon, D.

Subjects
SPECTRUM analysis, SPECTROMETRY, BROWN dwarf stars, DWARF stars, NEMESIS (Star)
Abstract

We present 0.9-2.5 μm resolved spectra for the ultracool binary WISEPC J121756.91+162640.2AB. The system consists of a pair of brown dwarfs that straddles the currently defined T/Y spectral type boundary. We use synthetic spectra generated by model atmospheres that include chloride and sulfide clouds (Morley et al.), the distance to the system (Dupuy & Kraus), and the radius of each component based on evolutionary models (Saumon & Marley) to determine a probable range of physical properties for the binary. The effective temperature of the T8.5 primary is 550-600 K and that of the Y0-Y0.5 secondary is ≈450 K. The atmospheres of both components are either free of clouds or have extremely thin cloud layers. We find that the masses of the primary and secondary are 30 and 22 MJup, respectively, and that the age of the system is 4-8 Gyr. This age is consistent with astrometric measurements (Dupuy & Kraus) that show that the system has kinematics intermediate between those of the thin and thick disks of the Galaxy. An older age is also consistent with an indication by the H – K colors that the system is slightly metal poor. [ABSTRACT FROM AUTHOR]

Published
2014
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50. Electronic and ionic structures of warm and hot dense matter.

Author

Starrett, C. E. and Saumon, D.

Subjects
*ELECTRONIC structure, *IONIC structure, *MATHEMATICAL models, *MAGNETIC coupling, *PLASMA gases, *DISTRIBUTION (Probability theory), *QUANTUM theory
Abstract

The results of a numerical implementation of the recent average atom model including ion-ion correlations of Starrett and Saumon [Phys. Rev. E 85, 026403 (2012)] are presented. The solution is obtained by coupling an average atom model to a two-component plasma model of electrons and ions. The two models are solved self-consistently and results are given in the form of pair distribution functions. Ion-ion pair distribution functions for hydrogen, carbon, aluminum, and iron are compared to quantum and Thomas-Fermi molecular dynamics simulations as well as path-integral Monte Carlo calculations and good agreement is found for a wide variety of plasma conditions in the warm and hot dense matter regime. [ABSTRACT FROM AUTHOR]

Published
2013
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