# The Disk Substructures at High Angular Resolution Project (DSHARP): I.   Motivation, Sample, Calibration, and Overview

**Authors:** Sean M. Andrews, Jane Huang, Laura M. P\'erez, Andrea Isella, Cornelis, P. Dullemond, Nicol\'as T. Kurtovic, Viviana V. Guzm\'an, John M. Carpenter,, David J. Wilner, Shangjia Zhang, Zhaohuan Zhu, Tilman Birnstiel, Xue-Ning, Bai, Myriam Benisty, A. Meredith Hughes, Karin I. \"Oberg, and Luca Ricci

arXiv: 1812.04040 · 2019-01-09

## TL;DR

The DSHARP project uses high-resolution ALMA observations to systematically study small-scale substructures in 20 nearby protoplanetary disks, revealing their prevalence, diversity, and potential role in planet formation.

## Contribution

This paper introduces the DSHARP survey, detailing its design, sample, calibration, and initial findings on disk substructures at unprecedented resolution.

## Key findings

- Substructures are common in large, bright disks.
- Most substructures are concentric rings and gaps.
- Substructures are found across a wide range of radii and sizes.

## Abstract

We introduce the Disk Substructures at High Angular Resolution Project (DSHARP), one of the initial Large Programs conducted with the Atacama Large Millimeter/submillimeter Array (ALMA). The primary goal of DSHARP is to find and characterize substructures in the spatial distributions of solid particles for a sample of 20 nearby protoplanetary disks, using very high resolution (0.035 arcsec, or 5 au FWHM) observations of their 240 GHz (1.25 mm) continuum emission. These data provide a first homogeneous look at the small-scale features in disks that are directly relevant to the planet formation process, quantifying their prevalence, morphologies, spatial scales, spacings, symmetry, and amplitudes, for targets with a variety of disk and stellar host properties. We find that these substructures are ubiquitous in this sample of large, bright disks. They are most frequently manifested as concentric, narrow emission rings and depleted gaps, although large-scale spiral patterns and small arc-shaped azimuthal asymmetries are also present in some cases. These substructures are found at a wide range of disk radii (from a few au to more than 100 au), are usually compact ($<$10 au), and show a wide range of amplitudes (brightness contrasts). Here we discuss the motivation for the project, describe the survey design and the sample properties, detail the observations and data calibration, highlight some basic results, and provide a general overview of the key conclusions that are presented in more detail in a series of accompanying articles. The DSHARP data -- including visibilities, images, calibration scripts, and more -- are released for community use at https://almascience.org/alma-data/lp/DSHARP.

## Full text

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## Figures

44 figures with captions in the complete paper: https://tomesphere.com/paper/1812.04040/full.md

## References

209 references — full list in the complete paper: https://tomesphere.com/paper/1812.04040/full.md

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Source: https://tomesphere.com/paper/1812.04040