Shell galaxies as laboratories for testing MOND

BILEK, Michal, Ivana EBROVÁ, Bruno JUNGWIERT, Lucie JÍLKOVÁ and Kateřina BARTOŠKOVÁ. Shell galaxies as laboratories for testing MOND. CANADIAN JOURNAL OF PHYSICS. OTTAWA: CANADIAN SCIENCE PUBLISHING, NRC RESEARCH PRESS, 2015, vol. 93, No 2, p. 203-212. ISSN 0008-4204. Available from: https://dx.doi.org/10.1139/cjp-2014-0170.

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TY  - JOUR
ID  - 1332323
AU  - Bilek, Michal - Ebrová, Ivana - Jungwiert, Bruno - Jílková, Lucie - Bartošková, Kateřina
PY  - 2015
TI  - Shell galaxies as laboratories for testing MOND
JF  - CANADIAN JOURNAL OF PHYSICS
VL  - 93
IS  - 2
SP  - 203-212
EP  - 203-212
PB  - CANADIAN SCIENCE PUBLISHING, NRC RESEARCH PRESS
SN  - 00084204
KW  - galaxies: interactions
KW  - galaxies: N-body simulations
KW  - galaxies: shell galaxies
UR  - http://arxiv.org/abs/1407.3202
L2  - http://arxiv.org/abs/1407.3202
N2  - Tests of MOND in elliptical galaxies are relatively rare because they often lack kinematic tracers in the regions where MOND effects are significant. Stellar shells observed in many elliptical galaxies offer a promising way to constrain their gravitational fields. Shells appear as glowing arcs around the host galaxy, with radii observed up to similar to 100 kpc. The stars in axially symmetric shell systems move in nearly radial orbits. The radial distributions of shell locations and the spectra of stars in shells can be used to constrain the gravitational potential of their host galaxy. The symmetrical shell systems, being especially suitable for these studies, occur in approximately 3% of all early-type galaxies. Hence, if we overcome several problems (e.g., multiple shell generations present in the system, shells missed by observations, blurry shell edges, dynamical friction during the merger), the shells substantially increase the number of ellipticals in which MOND can be tested up to large radii. In this paper, we review our work on shell galaxies in MOND. We summarize Bilek et al. (Astron. Astrophys. 559, A110 (2013)), where we demonstrated the consistency of shell radii in an elliptical NGC 3923 with MOND, and Bilek et al. (arXiv:1404.1109. 2014), in which we predicted a giant (similar to 200 kpc), yet undiscovered shell of NGC 3923. We explain the shell identification method that was used in these two papers. We further describe the expected shape of line profiles in shell spectra in MOND, which is very special because of the direct relation of the gravitational field and baryonic matter distribution (Bilek et al. 2014, in preparation).
ER  -

Basic information
Original name	Shell galaxies as laboratories for testing MOND
Authors	BILEK, Michal (203 Czech Republic, guarantor), Ivana EBROVÁ (203 Czech Republic), Bruno JUNGWIERT (203 Czech Republic), Lucie JÍLKOVÁ (203 Czech Republic) and Kateřina BARTOŠKOVÁ (203 Czech Republic, belonging to the institution).
Edition	CANADIAN JOURNAL OF PHYSICS, OTTAWA, CANADIAN SCIENCE PUBLISHING, NRC RESEARCH PRESS, 2015, 0008-4204.

Other information
Original language	English
Type of outcome	Article in a journal
Field of Study	10308 Astronomy
Country of publisher	Canada
Confidentiality degree	is not subject to a state or trade secret
WWW	URL
Impact factor	Impact factor: 0.724
RIV identification code	RIV/00216224:14310/15:00086202
Organization unit	Faculty of Science
Doi	http://dx.doi.org/10.1139/cjp-2014-0170
UT WoS	000349325300009
Keywords in English	galaxies: interactions; galaxies: N-body simulations; galaxies: shell galaxies
Tags	AKR, rivok
Tags	International impact, Reviewed
Changed by	Changed by: Ing. Andrea Mikešková, učo 137293. Changed: 8/4/2016 14:24.

Abstract

Tests of MOND in elliptical galaxies are relatively rare because they often lack kinematic tracers in the regions where MOND effects are significant. Stellar shells observed in many elliptical galaxies offer a promising way to constrain their gravitational fields. Shells appear as glowing arcs around the host galaxy, with radii observed up to similar to 100 kpc. The stars in axially symmetric shell systems move in nearly radial orbits. The radial distributions of shell locations and the spectra of stars in shells can be used to constrain the gravitational potential of their host galaxy. The symmetrical shell systems, being especially suitable for these studies, occur in approximately 3% of all early-type galaxies. Hence, if we overcome several problems (e.g., multiple shell generations present in the system, shells missed by observations, blurry shell edges, dynamical friction during the merger), the shells substantially increase the number of ellipticals in which MOND can be tested up to large radii. In this paper, we review our work on shell galaxies in MOND. We summarize Bilek et al. (Astron. Astrophys. 559, A110 (2013)), where we demonstrated the consistency of shell radii in an elliptical NGC 3923 with MOND, and Bilek et al. (arXiv:1404.1109. 2014), in which we predicted a giant (similar to 200 kpc), yet undiscovered shell of NGC 3923. We explain the shell identification method that was used in these two papers. We further describe the expected shape of line profiles in shell spectra in MOND, which is very special because of the direct relation of the gravitational field and baryonic matter distribution (Bilek et al. 2014, in preparation).

Links
MUNI/A/0773/2013, interní kód MU	Name: Pokročilé problémy teoretické fyziky a astrofyziky
MUNI/A/0773/2013, interní kód MU	Investor: Masaryk University, Category A

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Shell galaxies as laboratories for testing MOND

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