Julia Zachary scite author profile

The disk around HD 141569 is one of a handful of systems whose weak infrared emission is consistent with a debris disk, but still has a significant reservoir of gas. Here we report spatially resolved millimeter observations of the CO(3-2) and CO(1-0) emission as seen with the Submillimeter Array and CARMA. We find that the excitation temperature for CO is lower than expected from cospatial blackbody grains, similar to previous observations of analogous systems, and derive a gas mass that lies between that of gas-rich primordial disks and gas-poor debris disks. The data also indicate a large inner hole in the CO gas distribution and an outer radius that lies interior to the outer scattered light rings. This spatial distribution, with the dust rings just outside the gaseous disk, is consistent with the expected interactions between gas and dust in an optically thin disk. This indicates that gas can have a significant effect on the location of the dust within debris disks.

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Measuring the Local ISM along the Sight Lines of the Two Voyager Spacecraft with HST/STIS

Zachary

Redfield

Linsky

et al. 2018

ApJ

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In 2012, Voyager 1 crossed the heliopause, becoming the first human-made object to exit the solar system. This milestone signifies the beginning of an important new era for local interstellar medium (LISM) exploration. We present measurements of the structure and composition of the LISM in the immediate path of the Voyager spacecraft by using high-resolution Hubble Space Telescope (HST ) spectra of nearby stars that lie along the same lines of sight. We provide a comprehensive inventory of LISM absorption in the near-ultraviolet (2600-2800Å) and far-ultraviolet (1200-1500 A). The LISM absorption profiles are used to make comparisons between each pair of closely spaced (<15 • ) sight lines. With fits to several absorption lines, we make measurements of the physical properties of the LISM. We estimate electron density along the Voyager 2 sight line, and our values are consistent with recent measurements by Voyager 1. Excess absorption in the H I Lyα line displays the presence of both the heliosphere and an astrosphere around GJ 780. This is only the 14th detection of an astrosphere, and the large mass-loss rate (Ṁ = 10Ṁ ) is consistent with other subgiant stars. The heliospheric absorption matches the predicted strength for a sight line 58 • from the upwind direction. As both HST and Voyager reach the end of their lifetimes, we have the opportunity to synthesize their respective observations, combining in situ measurements with the shortest possible line-of-sight measurements to study the Galactic ISM surrounding the Sun.

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The Local Interstellar Medium: Comparison with IBEX Results, Sightlines to Exoplanet Host Stars, and Trajectories of the Voyager Spacecraft

Linsky

Redfield

Edelman

et al. 2018

J. Phys.: Conf. Ser.

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Measuring the Local ISM Along the Sight Lines of the Two Voyager Spacecraft with HST/STIS

Zachary¹

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Julia Zachary

Resolved Co Gas Interior to the Dust Rings of the Hd 141569 Disk

Measuring the Local ISM along the Sight Lines of the Two Voyager Spacecraft with HST/STIS

The Local Interstellar Medium: Comparison with IBEX Results, Sightlines to Exoplanet Host Stars, and Trajectories of the Voyager Spacecraft

Measuring the Local ISM Along the Sight Lines of the Two Voyager Spacecraft with HST/STIS

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