299 research outputs found
Dark matter and Higgs boson physics
A vector-like colorless fermion doublet and a singlet added to the Standard
Model allow a consistent interpretation of dark matter in terms of the lightest
neutral particle, as they may help in obtaining successful gauge coupling
unification. We analyze in detail the mass range of the lightest neutral
particle below the W mass, i.e. in a range of the parameters where the physics
of the Standard Model Higgs boson may be substantially affected either directly
or indirectly.Comment: 17 pages, 7 figures. v3: published version (small corrections
Guidelines for axion identification in astrophysical observations
The origin of various celestial phenomena have remained mysterious for
conventional astrophysics. Therefore, alternative solutions should be
considered, taking into account the involvement of unstable dark-matter
particle candidates, such as the celebrated axions or other as yet unforeseen
axion-like particles. Their spontaneous and induced decay by the ubiquitous
solar magnetic fields can be at the origin of persisting enigmatic X-ray
emission, giving rise to a steady and a transient/local solar activity,
respectively. The (coherent) conversion of photons into axion(-like) particles
in intrinsic magnetic fields may modify the solar axion spectrum. The reversed
process can be behind transient (solar) luminosity deficits in the visible.
Then, the Sun might be also a strong source of ~eV-axions. Thus, enigmatic
observations might be the as yet missing direct signature for axion(-like)
particles in earth-bound detectors.Comment: 6 pages, to be submitted to JCA
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Muon G-2 and Electric Dipole Moments in Storage Rings: Powerful Probes of Physics Beyond the Standard Model.
We have shown that the study of dipole moments, both magnetic and electric, in storage rings offer unique opportunities in probing physics beyond the Standard Model (SM). Both methods use similar techniques (particle and spin precession in magnetic storage rings). We are currently investigating the systematic errors associated with the resonance electric dipole moment (EDM) method. So far it looks very promising
First axion dark matter search with toroidal geometry
We firstly report an axion haloscope search with toroidal geometry. In this
pioneering search, we exclude the axion-photon coupling
down to about GeV over the axion mass range from 24.7
to 29.1 eV at a 95\% confidence level. The prospects for axion dark matter
searches with larger scale toroidal geometry are also considered.Comment: 5 pages, 5 figures, 1 table and to appear in PRD-R
KWISP: an ultra-sensitive force sensor for the Dark Energy sector
An ultra-sensitive opto-mechanical force sensor has been built and tested in
the optics laboratory at INFN Trieste. Its application to experiments in the
Dark Energy sector, such as those for Chameleon-type WISPs, is particularly
attractive, as it enables a search for their direct coupling to matter. We
present here the main characteristics and the absolute force calibration of the
KWISP (Kinetic WISP detection) sensor. It is based on a thin Si3N4
micro-membrane placed inside a Fabry-Perot optical cavity. By monitoring the
cavity characteristic frequencies it is possible to detect the tiny membrane
displacements caused by an applied force. Far from the mechanical resonant
frequency of the membrane, the measured force sensitivity is 5.0e-14
N/sqrt(Hz), corresponding to a displacement sensitivity of 2.5e-15 m/sqrt(Hz),
while near resonance the sensitivity is 1.5e-14 N/sqrt(Hz), reaching the
estimated thermal limit, or, in terms of displacement, 7.5e-16 N/sqrt(Hz).
These displacement sensitivities are comparable to those that can be achieved
by large interferometric gravitational wave detectors.Comment: 9 pages, 8 figures in colo
Resonance method of electric-dipole-moment measurements in storage rings
A resonance method of measuring the electric dipole moment (EDM) of nuclei in
storage rings is described, based on two new ideas: (1) Oscillating particles'
velocities in resonance with spin precession, and (2) alternately producing two
sub-beams with different betatron tunes--one sub-beam to amplify and thus make
it easier to correct ring imperfections that produce false signals imitating
EDM signals, and the other to make the EDM measurement.Comment: 10 pages, 1 figure, accepted for publication in Phys. Rev. Lett.,
Spring 200
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