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1. Quasi-spherical superclusters

Author

Heinämäki, Pekka, Teerikorpi, Pekka, Douspis, Marian, Nurmi, Pasi, Einasto, Maret, Gramann, Mirt, Nevalainen, Jukka, and Saar, Enn

Subjects
Astrophysics - Cosmology and Nongalactic Astrophysics
Abstract

Generally the dynamical state of superclusters is poorly known. We study properties of superclusters and select a sample of quasi-spherical superclusters, the dynamics of which can be studied using the $\Lambda$ significance diagram. We extracted our supercluster sample with an adaptive local threshold density method from the Sloan Digital Sky Survey Data Release 7 (SDSS DR7) data and estimated their masses using the dynamical masses for member galaxies and groups. We used topological analysis based on Minkowski functionals and the positions of galaxies and galaxy groups in superclusters. Finally, we highlight the dynamical state of a few exceptional types of superclusters found in this study using the $\Lambda$ significance diagram. Our final sample contains 65 superclusters in the distance range of 130 to 450 Mpc. Supercluster masses range between $1.1 \times 10^{15} M_{\sun}$ and $1.4 \times 10^{16} M_{\sun}$ and sizes between 25 Mpc and 87 Mpc. We find that pancake-type superclusters form the low-luminosity, small, poor and low-mass end of superclusters. We find four superclusters of unusual types, exhibiting exceptionally spherical shapes. These so-called quasi-spherical systems contain a high-density core surrounded by a relatively spherical density and galaxy distribution.The mass-to-light ratio of these quasi-sphericals is higher than those of the other superclusters, suggesting a relatively high dark matter content. Using the $\Lambda$ significance diagram for oblate and prolate spheroids, we find that three quasi-spherical superclusters are gravitationally bound at the present epoch. Quasi-spherical superclusters are among the largest gravitationally bound systems found to date, and form a special class of giant systems that, dynamically, are in between large gravitationally unbound superclusters and clusters of galaxies in an equilibrium configuration., Comment: 15 pages, 10 figures, 2 tables, accepted in Astronomy & Astrophysics

Published
2022
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2. The Corona Borealis supercluster: connectivity, collapse, and evolution

Author

Einasto, Maret, Kipper, Rain, Tenjes, Peeter, Lietzen, Heidi, Tempel, Elmo, Liivamägi, Lauri Juhan, Einasto, Jaan, Tamm, Antti, Heinämäki, Pekka, and Nurmi, Pasi

Subjects
Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - Astrophysics of Galaxies
Abstract

We present a study of the Corona Borealis (CB) supercluster. We determined the high-density cores of the CB and the richest galaxy clusters in them, and studied their dynamical state and galaxy content. We determined filaments in the supercluster to analyse the connectivity of clusters. We compared the mass distribution in the CB with predictions from the spherical collapse model and analysed the acceleration field in the CB. We found that at a radius $R_{\mathrm{30}}$ around clusters in the CB (A2065, A2061, A2089, and Gr2064) (corresponding to the density contrast $\Delta\rho \approx 30$), the galaxy distribution shows a minimum. The $R_{30}$ values for individual clusters lie in the range of $3 - 6$ $h^{-1}$ Mpc. The radii of the clusters (splashback radii) lie in the range of $R_{\mathrm{cl}} \approx 2 - 3$ $R_{\mathrm{vir}}$. The projected phase space diagrams and the comparison with the spherical collapse model suggest that $R_{\mathrm{30}}$ regions have passed turnaround and are collapsing. Galaxy content in clusters varies strongly. The cluster A2061 has the highest fraction of galaxies with old stellar populations, and A2065 has the highest fraction of galaxies with young stellar populations. The number of long filaments near clusters vary from one at A2089 to five at A2061. During the future evolution, the clusters in the main part of the CB may merge and form one of the largest bound systems in the nearby Universe. Another part of the CB, with the cluster Gr2064, will form a separate system. The structures with a current density contrast $\Delta\rho \approx 30$ have passed turnaround and started to collapse at redshifts $z \approx 0.3 - 0.4$. The comparison of the number and properties of the most massive collapsing supercluster cores from observations and simulations may serve as a test for cosmological models., Comment: 24 pages, 17 figures, accepted for publication in A&A, references updated

Published
2021
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3. The effect of cosmic web filaments on the properties of groups and their central galaxies

Author

Poudel, Anup, Heinämäki, Pekka, Tempel, Elmo, Einasto, Maret, Lietzen, Heidi, and Nurmi, Pasi

Subjects
Astrophysics - Astrophysics of Galaxies, Astrophysics - Cosmology and Nongalactic Astrophysics
Abstract

The nature versus nurture scenario in galaxy and group evolution is a long-standing problem not yet fully understood on cosmological scales. We study the properties of groups and their central galaxies in different large-scale environments defined by the luminosity density field and the cosmic web filaments. We use the luminosity density field constructed using 8 Mpc/h smoothing to characterize the large-scale environments and the Bisous model to extract the filamentary structures in different large-scale environments. We find differences in the properties of central galaxies and their groups in and outside of filaments at fixed halo and large-scale environments. In high-density environments, the group mass function has higher number densities in filaments compared to that outside of filaments towards the massive end. The relation is opposite in low-density environments. At fixed group mass and large-scale luminosity density, groups in filaments are slightly more luminous and their central galaxies have redder colors, higher stellar masses, and lower specific star formation rates than those outside of filaments. However, the differences in central galaxy and group properties in and outside of filaments are not clear in some group mass bins. We show that the differences in central galaxy properties are due to the higher abundances of elliptical galaxies in filaments. Filamentary structures in the cosmic web are not simply visual associations of galaxies, but rather play an important role in shaping the properties of groups and their central galaxies. The differences in central galaxy and group properties in and outside of cosmic web filaments are not simple effects related to large-scale environmental density. The results point towards an efficient mechanism in cosmic web filaments which quench star formation and transform central galaxy morphology from late to early types., Comment: 18 pages, 9 figures, Accepted for publication in Astronomy & Astrophysics (A&A)

Published
2016
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4. Sloan Great Wall as a complex of superclusters with collapsing cores

Author

Einasto, Maret, Lietzen, Heidi, Gramann, Mirt, Tempel, Elmo, Saar, Enn, Liivamägi, Lauri Juhan, Heinämäki, Pekka, Nurmi, Pasi, and Einasto, Jaan

Subjects
Astrophysics - Cosmology and Nongalactic Astrophysics
Abstract

In the cosmic web, galaxy superclusters or their high-density cores are the largest objects that may collapse at present or during the future evolution. We study the dynamical state and possible future evolution of galaxy superclusters from the Sloan Great Wall (SGW), the richest galaxy system in the nearby Universe. We calculated supercluster masses using dynamical masses of galaxy groups and stellar masses of galaxies. We employed normal mixture modelling to study the structure of rich SGW superclusters and search for components (cores) in superclusters. We analysed the radial mass distribution in the high-density cores of superclusters centred approximately at rich clusters and used the spherical collapse model to study their dynamical state. We found that the lower limit of the total mass of the SGW is approximately $M = 2.5\times~10^{16}h^{-1}M_\odot$. Different mass estimators of superclusters agree well, the main uncertainties in masses of superclusters come from missing groups and clusters. We detected three high-density cores in the richest SGW supercluster (SCl~027) and two in the second richest supercluster (SCl~019). They have masses of $1.2 - 5.9 \times~10^{15}h^{-1}M_\odot$ and sizes of up to $\approx 60 h^{-1}$ Mpc. The high-density cores of superclusters are very elongated, flattened perpendicularly to the line of sight. The comparison of the radial mass distribution in the high-density cores with the predictions of spherical collapse model suggests that their central regions with radii smaller than $8 h^{-1}$Mpc and masses of up to $M = 2\times~10^{15}h^{-1}M_\odot$ may be collapsing. The rich SGW superclusters with their high-density cores represent dynamically evolving environments for studies of the properties of galaxies and galaxy systems., Comment: 12 pages, 7 figures, accepted for publication in Astronomy and Astrophysics, typos corrected

Published
2016
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5. Characteristic density contrasts in the evolution of superclusters. The case of A2142 supercluster

Author

Gramann, Mirt, Einasto, Maret, Heinämäki, Pekka, Teerikorpi, Pekka, Saar, Enn, Nurmi, Pasi, and Einasto, Jaan

Subjects
Astrophysics - Cosmology and Nongalactic Astrophysics
Abstract

The formation and evolution of the cosmic web in which galaxy superclusters are the largest relatively isolated objects is governed by a gravitational attraction of dark matter and antigravity of dark energy (cosmological constant). We study the characteristic density contrasts in the spherical collapse model for several epochs in the supercluster evolution and their dynamical state. We analysed the density contrasts for the turnaround, future collapse and zero gravity in different LCDM models and applied them to study the dynamical state of the supercluster A2142 with an almost spherical main body. The analysis of the supercluster A2142 shows that its high-density core has already started to collapse. The zero-gravity line outlines the outer region of the main body of the supercluster. In the course of future evolution the supercluster may split into several collapsing systems. The various density contrasts presented in our study and applied to the supercluster A2142 offer a promising way to characterise the dynamical state and expected future evolution of galaxy superclusters., Comment: 6 pages, 2 figures, Astronomy and Astrophysics, in press

Published
2015
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6. Environments of galaxies in groups within the supercluster-void network

Author

Lietzen, Heidi, Tempel, Elmo, Heinämäki, Pekka, Nurmi, Pasi, Einasto, Maret, and Saar, Enn

Subjects
Astrophysics - Cosmology and Nongalactic Astrophysics
Abstract

Majority of all galaxies reside in groups of less than 50 member galaxies. These groups are distributed in various large-scale environments from voids to superclusters. Evolution of galaxies is affected by the environment in which they reside. Our aim is to study the effects that the local group scale and the supercluster scale environment have on galaxies. We use a luminosity-density field to determine density of the large-scale environment of galaxies in groups of various richness. We calculate fractions of different types of galaxies in groups with richnesses up to 50 member galaxies and in different large-scale environments from voids to superclusters. The fraction of passive elliptical galaxies rises and the fraction of star-forming spiral galaxies declines when the richness of a group of galaxies rises from two to approximately ten galaxies. On the large scale, the passive elliptical galaxies become more numerous than star-forming spirals when the environmental density grows to the density level typical for superclusters. The large-scale environment affects the level of these fractions in groups: galaxies in equally rich groups are more likely to be elliptical in supercluster environments than in lower densities. The crossing point, where the number of passive and star-forming galaxies is equal, happens in groups with lower richness in superclusters than in voids. Galaxies in low-density areas require richer groups to evolve from star-forming to passive. Groups in superclusters are on average more luminous than groups in large-scale environments with lower density. Our results suggest that the evolution of galaxies is affected by both, by the group in which the galaxy resides, and by its large-scale environment. Galaxies in lower-density regions develop later than galaxies in similar mass groups in high-density environments., Comment: 10 pages, 9 figures. Published in A&A. Language corrected 9th Oct 2012

Published
2012
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7. Formation, Evolution and Properties of Isolated Field Elliptical Galaxies

Author

Niemi, Sami-Matias, Heinämäki, Pekka, Nurmi, Pasi, and Saar, Enn

Subjects
Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - Astrophysics of Galaxies
Abstract

[Abridged] We study the properties, evolution and formation mechanisms of isolated field elliptical galaxies. We create a mock catalogue of isolated field elliptical galaxies from the Millennium Simulation Galaxy Catalogue, and trace their merging histories. The formation, identity and assembly redshifts of simulated isolated and non-isolated elliptical galaxies are studied and compared. Observational and numerical data are used to compare age, mass, and the colour-magnitude relation. Our results, based on simulation data, show that almost seven per cent of all elliptical galaxies brighter than -19mag in B-band can be classified as isolated field elliptical galaxies. Isolated field elliptical galaxies show bluer colours than non-isolated elliptical galaxies and they appear younger, in a statistical sense, according to their mass weighted age. Isolated field elliptical galaxies also form and assemble at lower redshifts compared to non-isolated elliptical galaxies. About 46 per cent of isolated field elliptical galaxies have undergone at least one major merging event in their formation history, while the same fraction is only about 33 per cent for non-isolated ellipticals. The mean time of the last major merging is z = 0.6 or 6 Gyrs ago for isolated ellipticals, while non-isolated ellipticals experience their last major merging significantly earlier at z = 1.1 or 8 Gyrs ago. After inspecting merger trees of simulated isolated field elliptical galaxies, we conclude that three different, yet typical formation mechanisms can be identified: solitude, coupling and cannibalism. Our results also predict a previously unobserved population of blue, dim and light galaxies that fulfill observational criteria to be classified as isolated field elliptical galaxies. This separate population comprises about 26 per cent of all IfEs., Comment: Accepted for publication in MNRAS, 19 pages, 16 figures

Published
2010
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8. Natural Transfer of Viable Microbes in Space from Planets in the Extra-Solar Systems to a Planet in our Solar System and Vice-Versa

Author

Valtonen, Mauri, Nurmi, Pasi, Zheng, Jia-Qing, Cucinotta, Francis A., Wilson, John W., Horneck, Gerda, Lindegren, Lennart, Melosh, Jay, Rickman, Hans, and Mileikowsky, Curt

Subjects
Astrophysics
Abstract

We investigate whether it is possible that viable microbes could have been transported to Earth from the planets in extra-solar systems by means of natural vehicles such as ejecta expelled by comet or asteroid impacts on such planets. The probabilities of close encounters with other solar systems are taken into account as well as the limitations of bacterial survival times inside ejecta in space, caused by radiation and DNA decay. The conclusion is that no potentially DNA/RNA life-carrying ejecta from another solar system in the general Galactic star field landed on Earth before life already existed on Earth, not even if microbial survival time in space is as long as tens of millions of years. However, if the Sun formed initially as a part of a star cluster, as is commonly assumed, we cannot rule out the possibility of transfer of life from one of the sister systems to us. Likewise, there is a possibility that some extra-solar planets carry life that originated in our solar system. It will be of great interest to identify the members of the Sun's birth cluster of stars and study them for evidence for planets and life on the planets. The former step may be accomplished by the GAIA mission, the latter step by the SIM and DARWIN missions. Therefore it may not be too long until we have experimental knowledge on the question whether the natural transfer of life from one solar system to another has actually taken place., Comment: 25 pages, 1 table, accepted to ApJ

Published
2008
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9. An analytical model of surface mass densities of cold dark matter haloes - with an application to MACHO microlensing optical depths

Author

Holopainen, Janne, Zackrisson, Erik, Knebe, Alexander, Nurmi, Pasi, Heinamaki, Pekka, Flynn, Chris, Gill, Stuart, and Riehm, Teresa

Subjects
Astrophysics
Abstract

The cold dark matter (CDM) scenario generically predicts the existence of triaxial dark matter haloes which contain notable amounts of substructure. However, analytical halo models with smooth, spherically symmetric density profiles are routinely adopted in the modelling of light propagation effects through such objects. In this paper, we address the biases introduced by this procedure by comparing the surface mass densities of actual N-body haloes against the widely used analytical model suggested by Navarro, Frenk and White (1996) (NFW). We conduct our analysis in the redshift range of 0.0 - 1.5. In cluster sized haloes, we find that triaxiality can cause scatter in the surface mass density of the haloes up to sigma_+ = +60% and sigma_- = -70%, where the 1-sigma limits are relative to the analytical NFW model given value. Subhaloes can increase this scatter to sigma_+ = +70% and sigma_- = -80%. In galaxy sized haloes, the triaxial scatter can be as high as sigma_+ = +80% and sigma_- = -70%, and with subhaloes the values can change to sigma_+ = +40% and sigma_- = -80%. We present an analytical model for the surface mass density scatter as a function of distance to the halo centre, halo redshift and halo mass. The analytical description enables one to investigate the reliability of results obtained with simplified halo models. Additionally, it provides the means to add simulated surface density scatter to analytical density profiles. As an example, we discuss the impact of our results on the calculation of microlensing optical depths for MACHOs in CDM haloes., Comment: 10 pages, 6 figures and 4 tables, accepted to MNRAS October 11th 2007

Published
2007
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10. Are the nearby groups of galaxies gravitationally bound objects?

Author

Niemi, Sami-Matias, Nurmi, Pasi, Heinämäki, Pekka, and Valtonen, Mauri

Subjects
Astrophysics
Abstract

We have compared numerical simulations to observations for the nearby (< 40 Mpc) groups of galaxies (Huchra & Geller 1982 and Ramella et al. 2002). The group identification is carried out using a group-finding algorithm developed by Huchra and Geller (1982). Using cosmological N-body simulation code with the LambdaCDM cosmology, we show that the dynamical properties of groups of galaxies identified from the simulation data are, in general, in a moderate, within 2sigma, agreement with the observational catalogues of groups of galaxies. As simulations offer more dynamical information than observations, we used the N-body simulation data to calculate whether the nearby groups of galaxies are gravitationally bound objects by using their virial ratio. We show that in a LambdaCDM cosmology about 20 per cent of nearby groups of galaxies, identified by the same algorithm as in the case of observations, are not bound, but merely groups in a visual sense. This is quite significant, specifically because estimations of group masses in observations are often based on an assumption that groups of galaxies found by the friends-of-friends algorithm are gravitationally bound objects. Simulations with different resolutions show the same results. We also show how the fraction of gravitationally unbound groups varies when the apparent magnitude limit of the sample and the value of the cosmological constant is changed. In general, a larger value of the Omega_Lambda generates slightly more unbound groups., Comment: 13 figures and 7 tables, Accepted 2007 September 19. Received 2007 September 19; in original form 2007 April 2

Published
2007
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11. Observational properties of visual binaries as modelled using a synthetic catalogue, I: For visual apparent magnitudes $m_v < 15$

Author

Nurmi, Pasi and Boffin, Henri M. J.

Subjects
Astrophysics
Abstract

A simulated binary star catalogue is created that represents the full sky distribution of stars, excluding those with galactic latitude $|b|<10\degr$, down to $m_v < 15$. The catalogue is compatible with observed magnitude and number distributions of the HST Guide Star Catalog. The simulated catalogue is analyzed for observational properties of visual binary stars, both in a general context without taking any observational constraints into account, and using different observability criteria that model the observational capability of the astrometric DIVA satellite. It is shown that several observational bias effects should be taken into account when final output catalogues are analyzed. The results indicate that $\Delta m_v$ distribution peaks at $\Delta m_v \approx 7$ and to maximize the number of binary detections with large mass ratios, the magnitude threshold should be set as high as possible. This is especially important if low mass $M<0.2 M_{\sun}$ secondaries are studied. The predicted number of optical pairs is calculated and for large magnitude differences close to the galactic plane and toward the galactic center it may be difficult to discriminate between a red companion and a low-mass foreground/background star for distant double stars for which no parallax measurements are available. Using optimal detection procedures for optical double stars it is estimated that, depending on the assumed double star distributions, 60%-70% of all the visual binary stars in the catalogue with separations $0.0625\arcsec<\theta<3.5\arcsec$, $m_{v}(\mathrm{secondary})<22$, and $\Delta m<10$ could be observed during the DIVA or similar missions., Comment: 12 pages, accepted for A&A

Published
2003
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16. eTimeTrek: digital deep history of the Universe.

Author

Deustua, S., Eastwood, K., ten Kate, I.L., Lehto, Kirsi, Kauko, Anni, Nurmi, Pasi, Lee, Natuschka, Chatzitheodoridis, Elias, and Lehto, Harry

Subjects
PHYSICAL cosmology, SPACE sciences education, TEACHING methods, LEARNING theories in education, QUANTUM theory
Published
2019
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18. The Oort cloud and the motion of the Sun in the Galaxy

Author

Gardner, Esko, Nurmi, Pasi, Mikkola, Seppo, Flynn, Chris, Univers, Transport, Interfaces, Nanostructures, Atmosphère et environnement, Molécules (UMR 6213) (UTINAM), Institut national des sciences de l'Univers (INSU - CNRS)-Centre National de la Recherche Scientifique (CNRS)-Université de Franche-Comté (UFC), Université Bourgogne Franche-Comté [COMUE] (UBFC)-Université Bourgogne Franche-Comté [COMUE] (UBFC), Laboratoire d'astrophysique de l'observatoire de Besançon (UMR 6091) (LAOB), Tuorla Observatory, University of Turku, and Finnish Centre for Astronomy with ESO (FINCA)

Subjects
[PHYS.ASTR.EP]Physics [physics]/Astrophysics [astro-ph]/Earth and Planetary Astrophysics [astro-ph.EP], [SDU.ASTR.EP]Sciences of the Universe [physics]/Astrophysics [astro-ph]/Earth and Planetary Astrophysics [astro-ph.EP]
Abstract

Workshop program and abstracts available at: http://lal.univ-lille1.fr/oort_workshop_prog.html; Should the Oort cloud care about how the Solar System moves around the Galaxy? The effect on the Oort cloud is not limited to a simple vertical system, but is far more complex. The full 3D-motion of the Solar System around the Galaxy has a profound effect on the Galactic tide, and through that the Oort cloud. This talk will address what can kind of periodicity can we find, and how far back does it make sense to examine the motion of the Sun?

Published
2011

22. Natural Transfer of Viable Microbes in Space from Planets in Extra-Solar Systems to a Planet in our Solar System and Vice Versa

Author

Valtonen, Mauri, Nurmi, Pasi, Zheng, Jia-Qing, Cucinotta, Francis A., Wilson, John W., Horneck, Gerda, Lindegren, Lennart, Melosh, Jay, Rickman, Hans, Mileikowsky, Curt, Valtonen, Mauri, Nurmi, Pasi, Zheng, Jia-Qing, Cucinotta, Francis A., Wilson, John W., Horneck, Gerda, Lindegren, Lennart, Melosh, Jay, Rickman, Hans, and Mileikowsky, Curt

Abstract

We investigate whether it is possible that viable microbes could have been transported to the Earth from planets in extra-solar systems by means of natural vehicles such as ejecta expelled by comets or asteroid impacts on such planets. The probabilities of close encounters with other solar systems are taken into account as well as the limitations of bacterial survival times inside ejecta in space, caused by radiation and DNA decay. The conclusion is that no potentially DNA/RNA life-carrying ejecta from another solar system in the general Galactic star field landed on the Earth before life already existed on the Earth, even if the microbial survival time in space is as long as tens of millions of years. However, if the Sun formed initially as a part of a star cluster, as is commonly assumed, we cannot rule out the possibility of transfer of life from one of the sister systems to us. Likewise, there is a possibility that some extra-solar planets carry life that originated in our solar system. It will be of great interest to identify the members of the Sun's birth cluster of stars and study them for evidence of planets and life on the planets. The former step may be accomplished by the GAIA mission, the latter step by the SIM and DARWIN missions. Therefore it may not be too long until we have experimental knowledge to answer the question of whether the natural transfer of life from one solar system to another has actually taken place.

Published
2009
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23. An analytical model of surface mass densities of cold dark matter haloes - with an application to MACHO microlensing optical depths

Author

Holopainen, Janne, Zackrisson, Erik, Knebe, Alexander, Nurmi, Pasi, Heinamaki, Pekka, Flynn, Chris, Gill, Stuart, Riehm, Teresa, Holopainen, Janne, Zackrisson, Erik, Knebe, Alexander, Nurmi, Pasi, Heinamaki, Pekka, Flynn, Chris, Gill, Stuart, and Riehm, Teresa

Abstract

The cold dark matter (CDM) scenario generically predicts the existence of triaxial dark matter haloes which contain notable amounts of substructure. However, analytical halo models with smooth, spherically symmetric density profiles are routinely adopted in the modelling of light propagation effects through such objects. In this paper, we address the biases introduced by this procedure by comparing the surface mass densities of actual N-body haloes against the widely used analytical model suggested by Navarro, Frenk and White (NFW). We conduct our analysis in the redshift range of 0.0-1.5. In cluster-sized haloes, we find that triaxiality can cause scatter in the surface mass density of the haloes up to sigma(+) = +60 per cent and sigma(-) = -70 per cent, where the 1 sigma limits are relative to the analytical NFW model given value. Subhaloes can increase this scatter to sigma(+) = +70 per cent and sigma(-) = -80 per cent. In galaxy-sized haloes, the triaxial scatter can be as high as sigma(+) = +80 per cent and sigma(-) = -70 per cent, and with subhaloes the values can change to sigma(+) = +40 per cent and sigma(-) = -80 per cent. We present an analytical model for the surface mass density scatter as a function of distance to the halo centre, halo redshift and halo mass. The analytical description enables one to investigate the reliability of results obtained with simplified halo models. Additionally, it provides the means to add simulated surface density scatter to analytical density profiles. As an example, we discuss the impact of our results on the calculation of microlensing optical depths for massive astrophysical compact halo objects in CDM haloes.

Published
2008
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26. The True Surface Mass density of Cold Dark Matter Halos

Author

Holopainen, Janne, Zackrisson, Erik, Knebe, Alexander, Nurmi, Pasi, Heinämäki, Pekka, Gill, Stuart, Flynn, Chris, Riehm, Teresa, Holopainen, Janne, Zackrisson, Erik, Knebe, Alexander, Nurmi, Pasi, Heinämäki, Pekka, Gill, Stuart, Flynn, Chris, and Riehm, Teresa

Published
2008

33. Normalized Hubble Diagrams for Simulated Galaxy Groups.

Author

Nurmi, Pasi, Heinämäki, Pekka, Teerikorpi, Pekka, and Chernin, Arthur

Subjects
*GALAXIES, *DARK matter, *INTERSTELLAR medium, *ASTRONOMY, *GRAPHIC methods
Abstract

Dark energy is one of the fundamental features of the modern cosmology. We use dark matter cosmological simulations to search for local group type systems and study the motions of halos. In simulations we see signinificant variations of motions for the infalling galaxies, but beyond some distance the galaxies follow the Hubble flow. [ABSTRACT FROM AUTHOR]

Published
2010
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