The N2D+/N2H+ ratio as an evolutionary tracer of Class 0 protostars

Adams; Aikawa; Aikawa; Alves; André; André; Bacmann; Bergin; Bergin; Bernes; Bisschop; Boogert; Caselli; Caselli; Caselli; Caselli; Ceccarelli; Ceccarelli; Cernis; Crapsi; Crapsi; Dalgarno; Daniel; Enoch; Evans; Flower; Flower; Fontani; Fontani; Fred; Frerking; Froebrich; Froebrich; Fuller; Gerlich; Gueth; Hatchell; Hatchell; Herbig; J. Stutzki; Jørgensen; Kirk; Kramer; Kramer; Kwon; Lacy; Lada; Looney; Looney; M. C. Wiedner; M. Emprechtinger; Mardones; Mardones; Maret; Matthews; Millar; Myers; Myers; N. H. Volgenau; O'Linger; Oliveira; P. Caselli; Pagani; Parise; Pineda; Rawlings; Redman; Roberts; Roberts; Roberts; Saraceno; Schnee; Shu; Smith; Tafalla; Tafalla; Tafalla; Terebey; van der Tak; Velusamy; Visser; Volgenau; Ward-Thompson; Willacy; Wilson; Womack; Öberg

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The N2D+/N2H+ ratio as an evolutionary tracer of Class 0 protostars

Authors: Adams
Aikawa
Aikawa
Alves
André
André
Bacmann
Bergin
Bergin
Bernes
Bisschop
Boogert
Caselli
Caselli
Caselli
Caselli
Ceccarelli
Ceccarelli
Cernis
Crapsi
Crapsi
Dalgarno
Daniel
Enoch
Evans
Flower
Flower
Fontani
Fontani
Fred
Frerking
Froebrich
Froebrich
Fuller
Gerlich
Gueth
Hatchell
Hatchell
Herbig
J. Stutzki
Jørgensen
Kirk
Kramer
Kramer
Kwon
Lacy
Lada
Looney
Looney
M. C. Wiedner
M. Emprechtinger
Mardones
Mardones
Maret
Matthews
Millar
Myers
Myers
N. H. Volgenau
O'Linger
Oliveira
P. Caselli
Pagani
Parise
Pineda
Rawlings
Redman
Roberts
Roberts
Roberts
Saraceno
Schnee
Shu
Smith
Tafalla
Tafalla
Tafalla
Terebey
van der Tak
Velusamy
Visser
Volgenau
Ward-Thompson
Willacy
Wilson
Womack
Öberg
Publication date: 1 January 2008
Publisher: 'EDP Sciences'
Doi

Abstract

Deuterated ions are abundant in cold (T=10 K), dense (n=10^5 cm^-3) regions, in which CO is frozen out onto dust grains. In such environments, the deuterium fractionation of such ions can exceed the elemental abundance ratio of D/H by a factor of 10^4. In this paper we use the deuterium fractionation to investigate the evolutionary state of Class 0 protostars. In a sample of 20 protostellar objects, we found a clear correlation between the N2D+/N2H+ ratio and evolutionary tracers. As expected, the coolest, i.e. the youngest, objects show the largest deuterium fractionation. Furthermore, we find that sources with a high N2D+/N2H+ ratio show clear indication for infall.Comment: 19 pages, 12 figures, accepted by A&

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