3,864 research outputs found
Modelling the Pioneer anomaly as modified inertia
This paper proposes an explanation for the Pioneer anomaly: an unexplained
Sunward acceleration of 8.74 +/- 1.33 x 10^-10 m s^-2 seen in the behaviour of
the Pioneer probes. Two hypotheses are made: (1) Inertia is a reaction to Unruh
radiation and (2) this reaction is weaker for low accelerations because some
wavelengths in the Unruh spectrum do not fit within a limiting scale (twice the
Hubble distance) and are disallowed: a process similar to the Casimir effect.
When these ideas are used to model the Pioneer crafts' trajectories there is a
slight reduction in their inertial mass, causing an anomalous Sunward
acceleration of 6.9 +/- 3.5 x 10^-10 m s^-2 which agrees within error bars with
the observed Pioneer anomaly beyond 10 AU from the Sun. This new scheme is
appealingly simple and does not require adjustable parameters. However, it also
predicts an anomaly within 10 AU of the Sun, which has not been observed.
Various observational tests for the idea are proposed.Comment: 15 pages, 2 bw figures, accepted by MNRAS 19th December 200
Possible relation between galactic flat rotational curves and the Pioneers' anomalous acceleration
We consider a generic minimal modification of the Newtonian potential, that
is a modification that introduces only one additional dimensional parameter.
The modified potential depends on a function whose behavior for large and small
distances can be fixed in order to obtain respectively (i) galactic flat
rotational curves and (ii) a universal constant acceleration independent of the
masses of the interacting bodies (Pioneer anomaly). Then using a dimensional
argument we show that the Tully-Fisher relation for the maximal rotational
velocity of spiral galaxies follows without any further assumptions. This
result suggests that the Pioneer anomalous acceleration and the flat rotational
curves of galaxies could have a common origin in a modified gravitational
theory. The relation of these results with the Modified Newtonian Dynamics
(MOND) is discussed.Comment: Latex2e, 9 pages, no figure
A New interpretation of MOND based on Mach principle and an Unruh like effect
A new interpretation is introduced for MOND based on the Sciama's
interpretation of Mach principle and an Unruh like effect, in the context of a
generalized equivalence principle. It is argued that in a locally accelerated
frame with acceleration the appearance of a Rindler horizon may give rise
to a constant acceleration as the local properties of cosmological
horizon or Hubble length. The total gravitational acceleration inside this
frame becomes the combination of with . For , the
conventional gravitational mass interacts with the dominant acceleration
as and application of Sciama's interpretation leads to the standard
Newtonian dynamics. For , however, a reduced gravitational mass
interacts with the dominant acceleration as and the
application of Sciama's interpretation on this reduced gravitational mass leads
to MOND. This introduces a third proposal for MOND: {\it The modification of
gravitational mass}.Comment: 11 pages, throughout revisio
Dark matter and non-Newtonian gravity from General Relativity coupled to a fluid of strings
An exact solution of Einstein's field equations for a point mass surrounded
by a static, spherically symmetric fluid of strings is presented. The solution
is singular at the origin. Near the string cloud limit there is a
correction to Newton's force law. It is noted that at large distances and small
accelerations, this law coincides with the phenomenological force law invented
by Milgrom in order to explain the flat rotation curves of galaxies without
introducing dark matter. When interpreted in the context of a cosmological
model with a string fluid, the new solution naturally explains why the critical
acceleration of Milgrom is of the same order of magnitude as the Hubble
parameter.Comment: 12 pages, REVTeX, no figure
The Bright Side of Dark Matter
We show that it is not possible in the absence of dark matter to construct a
four-dimensional metric that explains galactic observations. In particular, by
working with an effective potential it is shown that a metric which is
constructed to fit flat rotation curves in spiral galaxies leads to the wrong
sign for the bending of light i.e. repulsion instead of attraction. Hence,
without dark matter the motion of particles on galactic scales cannot be
explained in terms of geodesic motion on a four- dimensional metric. This
reveals a new bright side to dark matter: it is indispensable if we wish to
retain the cherished equivalence principle.Comment: 7 pages, latex, no figures. Received an honorable mention in the 1999
Gravity research Foundation Essay Competition. Submitted to Phys. Rev. Let
The Pioneer anomaly and the holographic scenario
In this paper we discuss the recently obtained relation between the
Verlinde's holographic model and the first phenomenological Modified Newtonian
dynamics. This gives also a promising possible explanation to the Pioneer
anomaly.Comment: 5 pages, Accepted for publication in Astrophysics & Space Scienc
Cosmic rays from active galactic nuclei
Cosmic ray (CR) acceleration at the shock created by the expanding cocoons
around active galactic nuclei (AGNs) is studied. It is shown that above the
energy eV the overall energy spectrum of CRs, produced during the AGN
evolution and released in the intergalactic space, has the form , with , which extends up to
eV. It is concluded that cocoons shocks have to be
considered as a main source of extragalactic CRs, which together with Galactic
supernova remnants provide the observed CR spectrum.Comment: 9 pages, Accepted for publication in ApJ
On the Possibility of Quantum Gravity Effects at Astrophysical Scales
The nonperturbative renormalization group flow of Quantum Einstein Gravity
(QEG) is reviewed. It is argued that at large distances there could be strong
renormalization effects, including a scale dependence of Newton's constant,
which mimic the presence of dark matter at galactic and cosmological scales.Comment: LaTeX, 18 pages, 4 figures. Invited contribution to the Int. J. Mod.
Phys. D special issue on dark matter and dark energ
Testing quantised inertia on galactic scales
Galaxies and galaxy clusters have rotational velocities apparently too fast
to allow them to be gravitationally bound by their visible matter. This has
been attributed to the presence of invisible (dark) matter, but so far this has
not been directly detected. Here, it is shown that a new model that modifies
inertial mass by assuming it is caused by Unruh radiation, which is subject to
a Hubble-scale (Theta) Casimir effect predicts the rotational velocity (v) to
be: v^4=2GMc^2/Theta (the Tully-Fisher relation) where G is the gravitational
constant, M is the baryonic mass and c is the speed of light. The model
predicts the outer rotational velocity of dwarf and disk galaxies, and galaxy
clusters, within error bars, without dark matter or adjustable parameters, and
makes a prediction that local accelerations should remain above 2c^2/Theta at a
galaxy's edge.Comment: 7 pages, 1 figure. Accepted for publication in Astrophysics and Space
Science on 27/7/201
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