Bow-Shock Chemistry in the Interstellar Medium Thesis

Bow-Shock Chemistry in the Interstellar Medium Thesis

E´ COLE DOCTORALE D’ASTRONOMIE ET D’ASTROPHYSIQUE D’IˆLE DE FRANCE BOW-SHOCK CHEMISTRY IN THE INTERSTELLAR MEDIUM THESIS submitted and publicly defended on March 28th, 2018 in fulfilment of the requirements for the DOCTORAT DE L’OBSERVATOIRE DE PARIS by LE NGOC TRAM Jury Members arXiv:1808.01439v1 [astro-ph.SR] 4 Aug 2018 President´ : Pierre ENCRENAZ Rapporteurs: David FLOWER Directeur: Pierre LESAFFRE Leen DECIN Co-directrice: Sylvie CABRIT Examinateurs: Stephane´ GUILLOTEAU Co-directrice: Pham Thi Tuyet NHUNG Eva VILLAVER Declaration of Authorship I, LE NGOC TRAM, declare that this thesis titled, ’BOW-SHOCK CHEMISTRY IN THE INTERSTELLAR MEDIUM’ and the work presented in it are my own. I confirm that: This work was done wholly or mainly while in candidature for a doctoral degree at Observatoire de Paris. Where any part of this thesis has previously been submitted for a degree or any other qualification at Observatoire de Paris or any other institution, this has been clearly stated. Where I have consulted the published work of others, this is always clearly at- tributed. Where I have quoted from the work of others, the source is always given. With the exception of such quotations, this thesis is entirely my own work. I have acknowledged all main sources of help. Where the thesis is based on work done by myself jointly with others, I have made clear exactly what was done by others and what I have contributed myself. Signed: Date: i For my mother MA Thi Kieu, my younger sister LE Thi Ngoc Tram and my family ... Acknowledgements I honorably thank Pierre Lesaffre for his enthusiastic supervision. He always was patient in the way of helping me solve practical problems that I have faced during my thesis. I am grateful to have been given the opportunity to learn science over these years. Furthermore, his scientific abilities to figure out the point and his attitudes at work were a model for me. I also wish to thank Sylvie Cabrit for the deep intensity of her supervision of this thesis. Over these three years, I benefited from her general vision of the Interstellar physics, as well as from her excellent ideas that made my thesis logical and constituted a magnificent information for a young researcher like me. I am obviously thankful to both of them for training me at using the shock code that they have been updating, improving for a long time. I personally could not find any words to express my gratitude. This gave me a general picture how the research should be, and what we understood about shock in the insterstellar medium. I thank my collaborators A.Gusdorf, David Neufeld, Thibeau Le Bertre, Jan-Martin Win- ters, P.Tuan-Anh and P.T Nhung for working with me. They do not only give beautiful data, useful materials and enlightening suggestions, but they also willingly respond to me for any questions. It is really interesting and valuable whenever I discuss with them, and I always learn something special after all. Here is the place where I want to thank Antoine Gusdorf, who gave me beautiful ob- servational data and explained to me the observational techniques that I did not really understand, as well as gave me a chance to be a part in his collaborations. And to Ben- jamin Godard, who is developing the shock code for helping me deeply understand the algorithm of the code. Indispensably, I am thankful to the Vietnam International Education Development (VIED) for mainly funding this thesis and the ANR SILAMPA (ANR-12-BS09-0025) for partly supporting me. I am also thankful the University of Science and Technology of Hanoi (USTH), who accepted me to be a candidate studying abroad. I am glad to mention my godfather Stephane´ Jacquemoud here, who always stood by me and encouraged me for these three years and in the future for sure. He helped me set up iii the life in Paris and solve any social problems which could happen. He also taught me French, as well as the history, the cultures and the arts of France. Of course, I am thankful to my family for constantly supporting me for these years, and the way they help me becoming what I am now. I would like to send a special thank to my mother who worked hard and traded off here life and health to make my dream come true. I also want to mention my uncles and my aunts who covered up my family when we were in trouble. Last but not least, I want to thank my friends, who were always beside me when I needed it, who gave me some advises, experiences for some specific cases. Ecole´ Doctorale d’Astronomie et d’Astrophysique d’Ileˆ de France English summary BOW-SHOCK CHEMISTRY IN THE INTERSTELLAR MEDIUM Stars are bad neighbors: they often disturb their surroundings. They sometimes travel very fast through the interstellar medium (ISM). They frequently undergo violent ejection events which leave an imprint on their neighborhood (jets, winds, supernovae). These su- personic flows generate shocks both in the ejected material and in the stellar environment. The study of these shocks constitute the subject of this thesis, and we model them with the Paris-Durham planar shock code, which incorporates a wealth of micro-physics and chemical processes relevant to the magnetized ISM. First, we use this code to model 3D magnetized axisymmetric bow shocks with arbitrary shapes, thanks to a formalism which links mathematically the shape of shocks to an equiv- alent statistical distribution of 1D shocks. For the first time, we examine systematically the effect of the geometry, age, and various other parameters on the H2 excitation diagram and emission line profiles. For example, we unveil a geometrical effect which shows that 1D planar shocks emission fits to 3D bow shocks are biased towards small velocities. We also apply our models to spatially integrated H2 observations of bow-shocks in Orion BN-KL and BHR71 where a much better match is obtained with only a limited number of additional parameters compared to former planar models. We illustrate on the Herbig- Haro object HH54 how spectrally resolved H2 line emission profiles can be used to extract a wealth of dynamical information. Second, we include in the Paris-Durham shock code a minimum set of processes nec- essary to describe asymptotic giant branch (AGB) wind models: geometrical dilution, external interstellar radiation, radiative pressure on grains, gravity, heating from stellar radiation pumping, three-body reactions, and sonic-point crossing. With this tool, we started to examine the time-dependent chemistry of hydrogen in winds of hot and cool AGB stars. We suggest that the low abundance of HI inferred from observations is due to hydrogen locked in its molecular form, and we use our model to try and reproduce HI line observations lines in a hot AGB (Y CVn) and a cold AGB (CW Leo). Although we have mainly focused on atomic or molecular hydrogen in this study it would be straightforward to extend it to other molecules with optically thin transitions. These simplified tools to model chemistry for complex geometries and dynamics are proving v very useful at a time when new instruments such as ALMA discover a wealth of spectral and spatial information for a multitude of chemical tracers, and also when the JWST will soon provide complementary data in the infrared H2 and ionic lines with unprecedented resolution and sensitivity. Ecole´ Doctorale d’Astronomie et d’Astrophysique d’Ileˆ de France Resum´ e´ franc¸ais CHIMIE DES CHOCS D’ETRAVES´ DANS LE MILIEU INTERSTELLAIRE Les etoiles´ sont de tres` mauvaises voisines: elles perturbent souvent leur environnement. Parfois, elles se deplacent´ a` grande vitesse dans le milieu interstellaire (MIS). Souvent, elles subissent des soubresauts violents qui laissent une empreinte dans leur voisinage (jets, vents, supernovae). Ces flots supersoniques gen´ erent` des chocs a` la fois dans le materiau´ eject´ e´ par l’etoile´ et dans l’environnement stellaire. L’etude´ de ces chocs con- stituent le sujet de cette these,` et nous les modelisons´ avec le code de chocs station- naires plan parallele` Paris-Durham, qui incorpore une riche panoplie de processus micro- physiques et chimiques adaptes´ au MIS magnetis´ e.´ Tout d’abord, nous utilisons ce code pour modeliser´ des chocs magnetis´ es´ 3D pour des formes arbitraires a` symetrie´ axiale, grace a` un formalisme qui lie mathematiquement´ la forme des chocs a` une fonction de distribution de chocs 1D equivalente.´ Pour la premiere` fois, nous examinons systematiquement´ l’effet de la geom´ etrie,´ de l’age,ˆ et de quelques autres parametres` sur le diagramme d’excitation de H2 resultant´ et la forme des profils raies d’emission´ de H2. Par exemple, nous devoilons´ un effet geom´ etrique´ qui montre que l’ajustement par des modeles` 1D de l’emission´ de H2 observee´ sur un choc 3D est sujette a` un biais vers les basses vitesses. Nous appliquons aussi nos modeles` a` l’observation de H2 spatialement integr´ ee´ de chocs d’etrave´ dans Orion BN-KL et BHR71 ou` nous obtenons un bien meilleur ajustement des observations avec un nombre a` peine plus grand de parametres` compare´ aux modeles` prec´ edents.´ Nous illustrons sur l’objet de Herbig- Haro HH54 la grande richesse d’information dynamique que renferme le profil des raies d’emission´ resolues´ de H2. Ensuite, nous incluons dans le code de Paris-Durham un ensemble minimal de processus necessaires´ pour decrire´ les modeles` de vents d’etoiles´ de la branche asymptotique des geantes´ (AGB): la dilution geom´ etrique,´ l’irradition externe, la pression de radiation sur les grains, la gravite,´ le chauffage duˆ au pompage radiatif par l’etoile,´ les reactions´ a` trois corps et le passage du point sonique.

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