1,044 research outputs found
Evidence of isotropy at large-scale from polarizations of radio sources
We test the isotropy of radio polarization angle orientations with a robust
and reliable dual frequency polarimetric survey of active galactic nuclei
(AGN). We find that the polarization orientations are consistent with the
assumption of isotropy for scales larger than or equal to Mpc. This
provides further evidence of isotropy at large distance scales and is likely to
impose strong constraints on some of the physical mechanisms that may be
invoked to explain past observations of alignment of radio and optical
polarizations at large distance scales.Comment: 6 pages, 9 figures, accepted for publication in Astronomy &
Astrophysics (10/12/2018
General Treatment of Reflection of Spherical Electromagnetic Waves from a Spherical Surface and its Implications for the ANITA Anomalous Polarity Events
We develop a general formalism to treat reflection of spherical
electromagnetic waves from a spherical surface. Our main objective is
interpretation of radio wave signals produced by cosmic ray interactions with
Earth's atmosphere which are observed by the Antarctica based ANITA detector
after reflection off the ice surface. The incident wave is decomposed into
plane waves and each plane wave is reflected off the surface using the standard
Fresnel formalism. For each plane wave the reflected wave is assumed to be
locally a plane wave. This is a very reasonable assumption and there are no
uncontrolled approximations in our treatment of the reflection phenomenon. The
surface roughness effects are also included by using a simple model. We apply
our formalism to the radiation produced by the balloon-borne HiCal
radio-frequency (RF) transmitter. Our final results for the reflected power are
found to be in good agreement with data for all elevation angles. We also study
the properties of reflected radio pulses in order to study their phase
relationship with direct pulses. We find that for some roughness models the
pulse shape can be somewhat distorted and may be misidentified as a direct
pulse. However this is a rather small effect and is unable to provide an
explanation for the observed mystery events by ANITA.Comment: 26 pages, 7 figures, substantial revision
Exploring the Micro-Structure of the Proton: from Form Factors to DVCS
For a long time people made the mistake of thinking the proton was
understood. New experiments, ranging from form factors to deeply virtual
Compton scattering, promise a new era of highly informative studies. Among the
controversial topics of the future may be such basic features as the physical
size of the proton, the role of quark orbital angular momentum, and the
possibility of making "femto-photographic" images of hadronic micro-structure.Comment: 19 pages, 2 figures, presented by John Ralston at the Workshop on
"Testing QCD through Spin Observables in Nuclear Targets", University of
Virginia, Charlottesville, Virginia, April 18-2
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