3,298 research outputs found
Interpreting the Cosmic Ray Composition
Detailed composition measurements can be a very powerful means of tracing
origins, a fact used regularly by forensic scientists and art historians. One
of the main motivating factors for making detailed observations of cosmic rays
was always the hope that a unique compositional signature could be found which
pointed unambiguously to a particular source. This has proven much harder than
expected, but we have now reached a point where it appears possible to begin to
decipher the information contained in the compositional data; the key, we have
discovered, is to read the data not in isolation, but in the context provided
by our general astronomical knowledge and by recent developments in shock
acceleration theory (Meyer, Drury and Ellison, 1997, 1998; Ellison, Drury and
Meyer, 1997). In our view (not, it is only fair to warn the reader, yet
universally accepted) the data show clearly that the Galactic cosmic ray
particles originate predominantly from the gas and dust of the general
interstellar medium.Comment: 14 pages, LaTeX 2.09, 4 figure
Dynamical effects of self-generated magnetic fields in cosmic ray modified shocks
Recent observations of greatly amplified magnetic fields () around supernova shocks are consistent with the predictions of the
non-linear theory of particle acceleration (NLT), if the field is generated
upstream of the shock by cosmic ray induced streaming instability. The high
acceleration efficiencies and large shock modifications predicted by NLT need
however to be mitigated to confront observations, and this is usually assumed
to be accomplished by some form of turbulent heating. We show here that
magnetic fields with the strength inferred from observations have an important
dynamical role on the shock, and imply a shock modification substantially
reduced with respect to the naive unmagnetized case. The effect appears as soon
as the pressure in the turbulent magnetic field becomes comparable with the
pressure of the thermal gas. The relative importance of this unavoidable effect
and of the poorly known turbulent heating is assessed. More specifically we
conclude that even in the cases in which turbulent heating may be of some
importance, the dynamical reaction of the field cannot be neglected, as instead
is usually done in most current calculations.Comment: 4 pages, 1 figure, accepted for publication in ApJ Letter
Public experiences of mass casualty decontamination
In this article, we analyze feedback from simulated casualties who took part in field exercises involving mass decontamination, to gain an understanding of how responder communication can affect people’s experiences of and compliance with decontamination. We analyzed questionnaire data gathered from 402 volunteers using the framework approach, to provide an insight into the public’s experiences of decontamination and how these experiences are shaped by the actions of emergency responders. Factors that affected casualties’ experiences of the econtamination process included the need for greater practical information and better communication from responders, and the need for privacy. Results support previous findings from small-scale incidents that involved decontamination in showing that participants wanted better communication from responders during the process of decontamination, including more practical information, and that the failure of responders to communicate effectively with members of the public led to anxiety about the decontamination process. The similarity between the findings from the exercises described in this article and previous research into real
incidents involving decontamination suggests that field exercises provide a useful way to examine the effect of responder communication strategies on the public’s experiences of decontamination. Future exercises should examine in more detail the effect of various communication strategies on the public’s experiences of decontamination. This will facilitate the development of evidence-based communication strategies intended to reduce anxiety about decontamination and increase compliance among members of the public during real-life incidents that involve mass decontamination
Searching for galactic cosmic ray pevatrons with multi-TeV gamma rays and neutrinos
The recent HESS detections of supernova remnant shells in TeV gamma-rays
confirm the theoretical predictions that supernova remnants can operate as
powerful cosmic ray accelerators. If these objects are responsible for the bulk
of galactic cosmic rays, then they should accelerate protons and nuclei to
10^15 eV and beyond, i.e. act as cosmic PeVatrons. The model of diffusive shock
acceleration allows, under certain conditions, acceleration of particles to
such high energies and their gradual injection into the interstellar medium,
mainly during the Sedov phase of the remnant evolution. The most energetic
particles are released first, while particles of lower energies are more
effectively confined in the shell, and are released at later epochs. Thus the
spectrum of nonthermal paticles inside the shell extends to PeV energies only
during a relatively short period of the evolution of the remnant. For this
reason one may expect spectra of secondary gamma-rays and neutrinos extending
to energies beyond 10 TeV only from T \lesssim 1000 yr old supernova remnants.
On the other hand, if by a chance a massive gas cloud appears in the \lesssim
100 pc vicinity of the supernova remnant, ``delayed'' multi-TeV signals of
gamma-rays and neutrinos arise when the most energetic partices emerged from
the supernova shell reach the cloud. The detection of such delayed emission of
multi-TeV gamma-rays and neutrinos allows indirect identification of the
supernova remnant as a particle PeVatron.Comment: ApJ Letters, in press. Reference to recent MILAGRO results adde
Argument Pedagogy for Everyday Life
This article assists argumentation and debate instructors in developing courses that provide coverage of foundational concepts while reflecting their own interests. Courses in argumentation and debate also offer instructors an opportunity to teach through applied engagement with contemporary events. We encourage instructors to reflect on the various contexts of argumentation and debate as well as challenging questions concerning the role of technology in the classroom, the conflict between normative and descriptive examples of argumentation, how much to emphasize the role of argumentation and debate in societal change, and the connections between argumentation and deliberation
Probing Nearby CR Accelerators and ISM Turbulence with Milagro Hot Spots
Both the acceleration of cosmic rays (CR) in supernova remnant shocks and
their subsequent propagation through the random magnetic field of the Galaxy
deem to result in an almost isotropic CR spectrum. Yet the MILAGRO TeV
observatory discovered a sharp ( arrival anisotropy of CR
nuclei. We suggest a mechanism for producing a weak and narrow CR beam which
operates en route to the observer. The key assumption is that CRs are scattered
by a strongly anisotropic Alfven wave spectrum formed by the turbulent cascade
across the local field direction. The strongest pitch-angle scattering occurs
for particles moving almost precisely along the field line. Partly because this
direction is also the direction of minimum of the large scale CR angular
distribution, the enhanced scattering results in a weak but narrow particle
excess. The width, the fractional excess and the maximum momentum of the beam
are calculated from a systematic transport theory depending on a single scale
which can be associated with the longest Alfven wave, efficiently
scattering the beam. The best match to all the three characteristics of the
beam is achieved at pc. The distance to a possible source of the beam
is estimated to be within a few 100pc. Possible approaches to determination of
the scale from the characteristics of the source are discussed. Alternative
scenarios of drawing the beam from the galactic CR background are considered.
The beam related large scale anisotropic CR component is found to be energy
independent which is also consistent with the observations.Comment: 2 figures, ApJ accepted version2 minor changes and correction
On the role of injection in kinetic approaches to nonlinear particle acceleration at non-relativistic shock waves
The dynamical reaction of the particles accelerated at a shock front by the
first order Fermi process can be determined within kinetic models that account
for both the hydrodynamics of the shocked fluid and the transport of the
accelerated particles. These models predict the appearance of multiple
solutions, all physically allowed. We discuss here the role of injection in
selecting the real solution, in the framework of a simple phenomenological
recipe, which is a variation of what is sometimes referred to as thermal
leakage. In this context we show that multiple solutions basically disappear
and when they are present they are limited to rather peculiar values of the
parameters. We also provide a quantitative calculation of the efficiency of
particle acceleration at cosmic ray modified shocks and we identify the
fraction of energy which is advected downstream and that of particles escaping
the system from upstream infinity at the maximum momentum. The consequences of
efficient particle acceleration for shock heating are also discussed
Non linear particle acceleration at non-relativistic shock waves in the presence of self-generated turbulence
Particle acceleration at astrophysical shocks may be very efficient if
magnetic scattering is self-generated by the same particles. This nonlinear
process adds to the nonlinear modification of the shock due to the dynamical
reaction of the accelerated particles on the shock. Building on a previous
general solution of the problem of particle acceleration with arbitrary
diffusion coefficients (Amato & Blasi, 2005), we present here the first
semi-analytical calculation of particle acceleration with both effects taken
into account at the same time: charged particles are accelerated in the
background of Alfven waves that they generate due to the streaming instability,
and modify the dynamics of the plasma in the shock vicinity.Comment: submitted to MNRA
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