共查询到20条相似文献,搜索用时 15 毫秒
1.
It is shown that a gas of massive bosonic particles (m
60 eV), e.g. Higgs particles, surrounding disk galaxies is able to generate the flat rotation curves of spiral galaxies without internal difficulties with physical principles. We have analyzed 36 galaxies and find good agreement with the empirical data. 相似文献
2.
Eva Gessner 《Astrophysics and Space Science》1992,196(1):29-43
In this paper we reproduce flat rotation curves of spiral galaxies by discussing a scalar tensor theory of gravity which includes the Higgs field as scalar field. The galaxy density distribution is assumed to be homogeneous or polytropic and in the galaxy core there exists a large concentrated mass. 相似文献
3.
Eva Gessner 《Astrophysics and Space Science》1992,194(2):197-205
It is shown that Einstein's cosmological constant can explain of the flat rotation curves of spiral galaxies. 相似文献
4.
It is shown that a gas of massive bosonic particles (
eV), e.g. Higgs particles, surrounding the disk galaxies is able to generate flat rotation curves without internal difficulties with physical principles. 相似文献
5.
6.
Recent observations of the rotation curves of large disk galaxies of all Hubble-types have shown that they possess flat or slowly rising rotation curves up to large distances from the centre. It has been suggested here that such rotation curves are understood under normal fluid dynamical considerations provided that viscous (and/or magnetic) transfer of mass and angular momentum from inner to outer regions of these galaxies is efficient. Flow of gas from halo to the disk in regions close to the axis of rotation is also suggested. The existence of rising rotation curves in some galaxies with varying gradients and flat rotation curves in others suggest that probably these galaxies are not coeval. The formers are probably of more recent origin. 相似文献
7.
D. F. Roscoe 《Journal of Astrophysics and Astronomy》1997,18(4):407-414
One of the largest rotation curve data bases of spiral galaxies currently available is that provided by Persic& Salucci (1995;
hereafter, PS) which has been derived by them from unreduced rotation curve data of 965 southern sky spirals obtained by Mathewson,
Ford& Buchhorn (1992; hereafter, MFB). Of the original sample of 965 galaxies, the observations on 900 were considered by
PS to be good enough for rotation curve studies, and the present analysis concerns itself with these 900 rotation curves.
The analysis is performed within the context of the hypothesis that velocity fields within spiral discs can be described by
generalized power-laws. Rotation curve data was found to impose an extremely strong and detailed correlation between the free
parameters of the power-law model, and this correlation accounts for virtually all the variation in the pivotal diagram. In
the process, the analysis reveals completely unexpected structure which indicates that rotation curves can be partitioned
into well-defined discrete subclasses. 相似文献
8.
I.A. Yegorova A. Babic P. Salucci K. Spekkens A. Pizzella 《Astronomische Nachrichten》2011,332(8):846-853
We have investigated the stellar light distribution and the rotation curves of high‐luminosity spiral galaxies in the local Universe. The sample contains 30 high‐quality extended Hα and H I rotation curves. The stellar disk scale‐length of these objects was measured or taken from the literature. We find that in the outermost parts of the stellar disks of these massive objects, the rotation curves agree with the Universal Rotation Curve (Salucci et al. 2007), however a few rotation curves of the sample show a divergence (© 2011 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim) 相似文献
9.
A method to fit flat rotation curves is presented, wherein the galactic density for a disk model is expressed in terms of a Dirichlet polynomial. This procedure allows us to obtain the total galactic mass and to predict the circular velocity at large galactocentric distances.Application of the method to the Galaxy, M31 and four Sc galaxies shows that a significant galactic mass is located beyond the optical radius although it is considerably smaller than the integral mass values obtained from current models with a massive corona included. Observed rotation curves and convergent total mass are obtained, thus the total mass for the Milky Way Galaxy is 5.69×1011
M
. 相似文献
10.
11.
We consider the effects of projection, internal absorption, and gas-or stellar-velocity dispersion on the measured rotation curves of galaxies with edge-on disks. Axisymmetric disk models clearly show that the rotational velocity in the inner galaxy is highly underestimated. As a result, an extended portion that imitates nearly rigid rotation appears. At galactocentric distances where the absorption is low (i.e., it does not exceed 0.3–0.5m kpc?1), the line profiles can have two peaks, and a rotation curve with minimum distortions can be obtained by estimating the position of the peak that corresponds to a higher rotational velocity. However, the high-velocity peak disappears in high-absorption regions and the actual shape of the rotation curve cannot be reproduced from line-of-sight velocity estimates. In general, the optical rotation curves for edge-on galaxies are of little use in reconstructing the mass distribution in the inner regions, particularly for galaxies with a steep velocity gradient in the central region. In this case, estimating the rotation velocities for outer (transparent) disk regions yields correct results. 相似文献
12.
V. P. Reshetnikov 《Astrophysics and Space Science》1992,191(1):49-60
The sample of members of isolated pairs of galaxies and close binary interacting systems — demonstrating a systematic falling of the emission-line rotation curves after the maxima — are considered. It is found that there is a significant correlation between the characteristics of the galaxies' emission-line velocity fields and the spatial distance to the companion. The different factors affecting the investigated relationships are discussed. 相似文献
13.
The results of a nonlinear wave theory of spiral structure that we have developed are compared with observational data on
the galaxies M81, M51, UGC 2259, and NGC 3883, which are characterized by different types of rotation curves.
Translated from Astrofizika, Vol. 43, No. 2, pp. 211–218, April–June, 2000. 相似文献
14.
A. V. Moiseev 《Astrophysical Bulletin》2014,69(1):1-20
We present the results of study of the ionized gas velocity fields in 28 nearby (systemic velocity below 1000 km s?1) dwarf galaxies. The observations were made at the 6-m BTA telescope of the SAO RAS with the scanning Fabry-Perot interferometer in the Hα emission line. We were able to measure regular circular rotation parameters in 25 galaxies. As a rule, rotation velocities measured in HII are in a good agreement with the data on the HI kinematics at the same radii. Three galaxies reveal position angles of the kinematic axis in the HII velocity fields that strongly (tens of degrees) differ from the measurements in neutral hydrogen at large distances from the center or from the orientation of the major axis of optical isophotes. The planes of the gaseous and stellar disks in these galaxies most likely do not coincide. Namely, in DDO99 the gaseous disk is warped beyond the optical radius, and in UGC3672 and UGC8508 the inclination of orbits of gas clouds varies in the inner regions of galaxies. It is possible that the entire ionized gas in UGC8508 rotates in the plane polar to the stellar disk. 相似文献
15.
We use the rotation curves of 13 galaxies to test the nonsymmetric gravitaional theory (NGT). If we follow Moffat's assumption of a constant mass-to-light for all galaxies then we shall find that the two supposedly universal constants r0, L0 to show a large scatter. By regarding the mass-to-light ratio as a free parameter for each galaxy, and adjusting the values of r0, L0, we find that NGT can well account for the observed rotation curves. Further, the mass-to-light ratios so found show the well-known trend along the Hubble morphological sequence. 相似文献
16.
We extend our general relativistic analysis of galactic rotation curves (see Cooperstock and Tieu in Int. J. Mod. Phys. A
22:2293, 2007) with galaxies NGC 2841, NGC 2903 and NGC 5033. As before, we employ the solution of the Einstein field equations of general
relativity with an expansion in Bessel functions. As in our earlier studies, the fits to the data are found to be very precise
and the calculated baryonic masses are lower than those based upon Newtonian gravity. Also as in our previous studies, the
galactic radii at which the optical luminosities terminate are seen to correlate with densities near 10−21.75 kg m−3. This concordance lends further support to the correctness of the procedure as well as providing a potentially valuable piece
of information in the understanding of galactic evolution. 相似文献
17.
18.
E. Schmutzer 《Astronomische Nachrichten》2001,322(2):103-113
The dark matter accretion theory (around a central body) of the author on the basis of his 5‐dimensional Projective Unified Field Theory (PUFT) is applied to the orbital motion of stars around the center of the Galaxy. The departure of the motion from Newtonian mechanics leads to approximately flat rotation curves being in rough accordance with the empirical facts. The spirality of the motion is investigated. 相似文献
19.
Rotation curves of spiral galaxies in clusters are compared with their counterparts in the field using three criteria: (1) inner and outer velocity gradients, (2)M/L gradients, and (3) Burstein's mass type methodology. Both H emission-line rotation curves and more extendedHi rotation curves are used. A good correlation is found between the outer gradient of the rotation curve and the galaxy's distance from the centre of the cluster, in the sense that the inner galaxies tend to have falling rotation curves while the outer galaxies, and field galaxies, tend to have flat or rising rotation curves. A correlation is also found between theM/L gradient across a galaxy and the galaxy's position in the cluster, with the outer galaxies having steeperM/L gradients. Mass types for field spirals are shown to be a function of both Hubble-type and luminosity, contrary to earlier results. The statistical difference between the distribution of mass types in clusters and in the field reported by Bursteinet al. is confirmed. These correlations indicate that the inner cluster environment can strip away some fraction of the mass in the outer halo of a spiral galaxy, or alternatively, may not allow the halo to form. 相似文献