3D shape of Orion A from Gaia DR2

Josefa E. Großschedl; João Alves; Stefan Meingast; Christine Ackerl; Joana Ascenso; Hervé Bouy; Andreas Burkert; Jan Forbrich; Verena Fürnkranz; Alyssa Goodman; Alvaro Hacar Gonzalez; Gabor Herbst-Kiss; Charles J. Lada; Irati Larreina; Kieran Leschinski; Marco Lombardi; André Moitinho; Daniel Mortimer; Eleonora Zari

doi:10.1051/0004-6361/201833901

3D shape of Orion A from Gaia DR2

Josefa E. Großschedl
, João Alves
, Stefan Meingast
, Christine Ackerl
, Joana Ascenso
, Hervé Bouy
, Andreas Burkert
, Jan Forbrich
, Verena Fürnkranz
, Alyssa Goodman
, Alvaro Hacar Gonzalez
, Gabor Herbst-Kiss
, Charles J. Lada
, Irati Larreina
, Kieran Leschinski
, Marco Lombardi
, André Moitinho
, Daniel Mortimer
, Eleonora Zari

Publications: Contribution to journal › Article › Peer Reviewed

Abstract

We use the Gaia DR2 distances of about 700 mid-infrared selected young stellar objects in the benchmark giant molecular cloud Orion A to infer its 3D shape and orientation. We find that Orion A is not the fairly straight filamentary cloud that we see in (2D) projection, but instead a cometary-like cloud oriented toward the Galactic plane, with two distinct components: A denser and enhanced star-forming (bent) Head, and a lower density and star-formation quieter ∼75 pc long Tail. The true extent of Orion A is not the projected ∼40 pc but ∼90 pc, making it by far the largest molecular cloud in the local neighborhood. Its aspect ratio (∼30:1) and high column-density fraction (∼45%) make it similar to large-scale Milky Way filaments ("bones"), despite its distance to the galactic mid-plane being an order of magnitude larger than typically found for these structures.

Original language	English
Article number	A106
Number of pages	9
Journal	Astronomy & Astrophysics
Volume	619
DOIs	https://doi.org/10.1051/0004-6361/201833901
Publication status	Published - 1 Nov 2018

Austrian Fields of Science 2012

103003 Astronomy
103004 Astrophysics

Keywords

methods: statistical
methods: observational
parallaxes
stars: distances
stars: formation
local insterstellar matter
SKY
KL
DISTANCE
ARRAY
NEBULA CLUSTER
CLOUD
VERA
Stars: Distances
Local insterstellar matter
Methods: Statistical
Parallaxes
Methods: Observational
Stars: Formation

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10.1051/0004-6361/201833901

http://adsabs.harvard.edu/abs/2018A%26A...619A.106G

Cite this

Großschedl, J. E., Alves, J., Meingast, S., Ackerl, C., Ascenso, J., Bouy, H., Burkert, A., Forbrich, J., Fürnkranz, V., Goodman, A., Hacar Gonzalez, A., Herbst-Kiss, G., Lada, C. J., Larreina, I., Leschinski, K., Lombardi, M., Moitinho, A., Mortimer, D., & Zari, E. (2018). 3D shape of Orion A from Gaia DR2. Astronomy & Astrophysics, 619, Article A106. https://doi.org/10.1051/0004-6361/201833901

@article{d1c9963e234a4d00a41cbd886178daff,

title = "3D shape of Orion A from Gaia DR2",

abstract = "We use the Gaia DR2 distances of about 700 mid-infrared selected young stellar objects in the benchmark giant molecular cloud Orion A to infer its 3D shape and orientation. We find that Orion A is not the fairly straight filamentary cloud that we see in (2D) projection, but instead a cometary-like cloud oriented toward the Galactic plane, with two distinct components: A denser and enhanced star-forming (bent) Head, and a lower density and star-formation quieter ∼75 pc long Tail. The true extent of Orion A is not the projected ∼40 pc but ∼90 pc, making it by far the largest molecular cloud in the local neighborhood. Its aspect ratio (∼30:1) and high column-density fraction (∼45\%) make it similar to large-scale Milky Way filaments ({"}bones{"}), despite its distance to the galactic mid-plane being an order of magnitude larger than typically found for these structures.",

keywords = "methods: statistical, methods: observational, parallaxes, stars: distances, stars: formation, local insterstellar matter, SKY, KL, DISTANCE, ARRAY, NEBULA CLUSTER, CLOUD, VERA, Stars: Distances, Local insterstellar matter, Methods: Statistical, Parallaxes, Methods: Observational, Stars: Formation",

author = "Gro{\ss}schedl, \{Josefa E.\} and Jo{\~a}o Alves and Stefan Meingast and Christine Ackerl and Joana Ascenso and Herv{\'e} Bouy and Andreas Burkert and Jan Forbrich and Verena F{\"u}rnkranz and Alyssa Goodman and \{Hacar Gonzalez\}, Alvaro and Gabor Herbst-Kiss and Lada, \{Charles J.\} and Irati Larreina and Kieran Leschinski and Marco Lombardi and Andr{\'e} Moitinho and Daniel Mortimer and Eleonora Zari",

note = "Publisher Copyright: {\textcopyright} 2018 ESO.",

year = "2018",

month = nov,

day = "1",

doi = "10.1051/0004-6361/201833901",

language = "English",

volume = "619",

journal = "Astronomy \& Astrophysics",

issn = "0004-6361",

publisher = "EDP SCIENCES S A",

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Großschedl, JE, Alves, J , Meingast, S, Ackerl, C, Ascenso, J, Bouy, H, Burkert, A, Forbrich, J, Fürnkranz, V, Goodman, A, Hacar Gonzalez, A, Herbst-Kiss, G, Lada, CJ, Larreina, I, Leschinski, K, Lombardi, M, Moitinho, A, Mortimer, D & Zari, E 2018, '3D shape of Orion A from Gaia DR2', Astronomy & Astrophysics, vol. 619, A106. https://doi.org/10.1051/0004-6361/201833901

TY - JOUR

T1 - 3D shape of Orion A from Gaia DR2

AU - Großschedl, Josefa E.

AU - Alves, João

AU - Meingast, Stefan

AU - Ackerl, Christine

AU - Ascenso, Joana

AU - Bouy, Hervé

AU - Burkert, Andreas

AU - Forbrich, Jan

AU - Fürnkranz, Verena

AU - Goodman, Alyssa

AU - Hacar Gonzalez, Alvaro

AU - Herbst-Kiss, Gabor

AU - Lada, Charles J.

AU - Larreina, Irati

AU - Leschinski, Kieran

AU - Lombardi, Marco

AU - Moitinho, André

AU - Mortimer, Daniel

AU - Zari, Eleonora

PY - 2018/11/1

Y1 - 2018/11/1

N2 - We use the Gaia DR2 distances of about 700 mid-infrared selected young stellar objects in the benchmark giant molecular cloud Orion A to infer its 3D shape and orientation. We find that Orion A is not the fairly straight filamentary cloud that we see in (2D) projection, but instead a cometary-like cloud oriented toward the Galactic plane, with two distinct components: A denser and enhanced star-forming (bent) Head, and a lower density and star-formation quieter ∼75 pc long Tail. The true extent of Orion A is not the projected ∼40 pc but ∼90 pc, making it by far the largest molecular cloud in the local neighborhood. Its aspect ratio (∼30:1) and high column-density fraction (∼45%) make it similar to large-scale Milky Way filaments ("bones"), despite its distance to the galactic mid-plane being an order of magnitude larger than typically found for these structures.

AB - We use the Gaia DR2 distances of about 700 mid-infrared selected young stellar objects in the benchmark giant molecular cloud Orion A to infer its 3D shape and orientation. We find that Orion A is not the fairly straight filamentary cloud that we see in (2D) projection, but instead a cometary-like cloud oriented toward the Galactic plane, with two distinct components: A denser and enhanced star-forming (bent) Head, and a lower density and star-formation quieter ∼75 pc long Tail. The true extent of Orion A is not the projected ∼40 pc but ∼90 pc, making it by far the largest molecular cloud in the local neighborhood. Its aspect ratio (∼30:1) and high column-density fraction (∼45%) make it similar to large-scale Milky Way filaments ("bones"), despite its distance to the galactic mid-plane being an order of magnitude larger than typically found for these structures.

KW - methods: statistical

KW - methods: observational

KW - parallaxes

KW - stars: distances

KW - stars: formation

KW - local insterstellar matter

KW - SKY

KW - KL

KW - DISTANCE

KW - ARRAY

KW - NEBULA CLUSTER

KW - CLOUD

KW - VERA

KW - Stars: Distances

KW - Local insterstellar matter

KW - Methods: Statistical

KW - Parallaxes

KW - Methods: Observational

KW - Stars: Formation

UR - https://www.scopus.com/pages/publications/85056789055

U2 - 10.1051/0004-6361/201833901

DO - 10.1051/0004-6361/201833901

M3 - Article

SN - 0004-6361

VL - 619

JO - Astronomy & Astrophysics

JF - Astronomy & Astrophysics

M1 - A106

ER -

3D shape of Orion A from Gaia DR2

Abstract

Austrian Fields of Science 2012

Keywords

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