5,827 research outputs found
On dilatons with intrinsic decouplings
In this paper, we show that there exists a class of dilaton models with
non-trivial scalar-Ricci and scalar-matter couplings that strongly reduces
observational deviations from general relativity in the dust limit.
Essentially, depending on the coupling between the dilaton and the fundamental
matter fields, various strengths of decoupling can appear. They range from no
decoupling at all to a total decoupling state. In this latter case, the theory
becomes indistinguishable from general relativity (in the dust limit), as all
dilatonic effects can be re-absorbed through a simple change of unit.
Furthermore, for particular decouplings, we show that the phenomenology used
to constrain theories from universality of free fall observations is
significantly different from what is commonly used. Finally, from a fundamental
perspective, the class of non-dynamical decouplings proposed in this paper
might play a role in the current non-observation of any deviation from general
relativity (in both tests of the equivalence principle and of the parametrized
post-Newtonian formalism).Comment: 7 pages, comments welcom
Post-Newtonian phenomenology of a massless dilaton
In this paper, we present extensively the observational consequences of
massless dilaton theories at the post-Newtonian level. We extend previous work
by considering a general model including a dilaton-Ricci coupling as well as a
general dilaton kinetic term while using the microphysical dilaton-matter
coupling model proposed in [Damour and Donoghue, PRD 2010].
We derive all the expressions needed to analyze local gravitational
observations in a dilaton framework, which is useful to derive constraints on
the dilaton theories. In particular, we present the equations of motion of
celestial bodies (in barycentric and planetocentric reference frames), the
equation of propagation of light and the evolution of proper time as measured
by specific clocks. Particular care is taken in order to derive properly the
observables. The resulting equations can be used to analyse a large numbers of
observations: universality of free fall tests, planetary ephemerides analysis,
analysis of satellites motion, Very Long Baseline Interferometry, tracking of
spacecraft, gravitational redshift tests, ...Comment: 27 pages, comments welcom
Thermal Dileptons as Fireball Thermometer and Chronometer
Thermal dilepton radiation from the hot fireballs created in high-energy
heavy-ion collisions provides unique insights into the properties of the
produced medium. We first show how the predictions of hadronic many-body theory
for a melting meson, coupled with QGP emission utilizing a modern
lattice-QCD based equation of state, yield a quantitative description of
dilepton spectra in heavy-ion collisions at the SPS and the RHIC beam energy
scan program. We utilize these results to systematically extract the excess
yields and their invariant-mass spectral slopes to predict the excitation
function of fireball lifetimes and (early) temperatures, respectively. We
thereby demonstrate that future measurements of these quantities can yield
unprecedented information on basic fireball properties. Specifically, our
predictions quantify the relation between the measured and maximal fireball
temperatures, and the proportionality of excess yields and total lifetime. This
information can serve as a "caloric" curve to search for a first-order QCD
phase transition, and to detect non-monotonous lifetime variations possibly
related to critical phenomena.Comment: 4 pages 3 figure
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