Can Deuteration be Used as A Chemical Clock in Protostellar Cores

Schleicher, Dominik; Banerjee, R.; Boekholt, T.; Bovino, S.; Fellhauer, M.; GALLI, Daniele; Grassi, T.; Grete, P.; Haugboelle, T.; Koertgen, B.; Latif, M.; Riaz, R.; Stutz, A.

doi:10.5281/zenodo.808655

Can Deuteration be Used as A Chemical Clock in Protostellar Cores

Date Issued

2017

Author(s)

Schleicher, Dominik

•

Banerjee, R.

•

Boekholt, T.

•

Bovino, S.

•

Fellhauer, M.

•

GALLI, Daniele

•

Grassi, T.

•

Grete, P.

•

Haugboelle, T.

•

Koertgen, B.

•

Latif, M.

•

Riaz, R.

•

Stutz, A.

DOI

10.5281/zenodo.808655

Abstract

Measuring deuteration fraction in protostellar cores is considered as an important method for age determinations of protostellar cores, and the high deuteration fraction of up to 10% has been considered as evidence for high ages and strong support via magnetic field. In this talk, I will present 3D magneto-hydrodynamical simulations including the deuteration chemistry to explore how the deuteration fraction depends on the dynamical and chemical conditions. I will show that high deuteration fractions can be obtained under a large set of different conditions.

Coverage

Star Formation from Cores to Clusters

Start page

54

Conferenece

Star Formation from Cores to Clusters

Conferenece place

ESO, Santiago, Cile

Conferenece date

6-9 marzo, 2017

Uri

http://hdl.handle.net/20.500.12386/27229

Url

https://zenodo.org/record/808655#.X0t0fC-B3-Y

Ads BibCode

2017sfcc.confE..54S

Rights

open.access

File(s)

Name

schleicher_2017.pdf

Description

Talk

Size

2.24 MB

Format

Adobe PDF

Checksum (MD5)

a43184d80d48d8f4ac0bb6219ce9ede5

Can Deuteration be Used as A Chemical Clock in Protostellar Cores

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