17 research outputs found
Quark Model and Neutral Strange Secondary Production by Neutrino and Antineutrino Beams
The experimental data on and production by and
beams are compared with the predictions of quark model assuming
that the direct production of secondaries dominates. Disagreement of these
predictions with the data allows one to suppose that there exists considerable
resonance decay contribution to the multiplicities of produced secondaries.Comment: 6 pages, no figures, 2 table
The total yields of K^+(892), Sigma^+(1385) and Sigma^0 in neutrino-induced reactions at <E_nu> = 10 GeV
Using the data obtained with SKAT bubble chamber, the total yields of
, and are estimated for the first time in
neutrino-induced reactions at moderate energies ( = 10.4 GeV). It is
shown, that the recently observed \cite{ref1,ref2} enhancement of the and
yields in interactions (as compared to interactions)
is contributed only slightly by the and production,
respectively. The decay contribution to the and yields is found
to be in qualitative agreement with higher energy ( 40 GeV) data.
It is shown, that the energy dependence of the mean multiplicity in
interactions is approximately linear in the range of 10-60 GeV, while that for in interactions (for
= 20-21) is approximately logarithmic in the range of
10-150 GeV.Comment: 6 pages, 3 figure
The A - dependence of and neutrinoproduction on nuclei
For the first time, the A- dependence of the production of ,
and, for comparison, mesons is investigated in neutrinonuclear
reactions, using the data obtained with SKAT bubble chamber. An exponential
parametrization () of the particle yields results in
for particles (combined and
), while for mesons the A- dependence is much weaker,
. A nuclear enhancement of the ratio
is found; this ratio increases from for -
interactions up to at and at
. It is observed, that the multiplicity rise of 's occures
predominantely in the backward hemisphere of the hadronic c.m.s. It is shown,
that the A- dependence of the nuclear enhancement of the and
yields can be reproduced in the framework of a model, incorporating the
secondary intranuclear interactions of pions originating from the primary - interactions, while only (299)% of that for at
can be attributed to intranuclear interactions.Comment: 18 pages, 8 figure
A Study of Strange Particle Production in Muon Neutrino Charged Current Interactions in the NOMAD Experiment
A study of strange particle production in muon neutrino charged current
interactions has been performed using the data from the NOMAD experiment.
Yields of neutral strange particles K0s, Lambda, AntiLambda have been measured.
Mean multiplicities are reported as a function of the event kinematic variables
Enu, W2 and Q2 as well as of the variables describing particle behaviour within
a hadronic jet: xF, z and pT2. Decays of resonances and heavy hyperons with
identified K0s and Lambda in the final state have been analyzed. Clear signals
corresponding to K*+-, Sigma*+-, Xi- and Sigma0 have been observed.Comment: 43 pages, accepted for publication in the Nuclear Physics B as a
Rapid Communication in Experimental High-Energy Physic
Perspectives and challenges for the use of radar in biological conservation
Radar is at the forefront for the study of broad-scale aerial movements of birds, bats and insects and related issues in biological conservation. Radar techniques are especially useful for investigating species which fly at high altitudes, in darkness, or which are too small for applying electronic tags. Here, we present an overview of radar applications in biological conservation and highlight its future possibilities. Depending on the type of radar, information can be gathered on local- to continental-scale movements of airborne organisms and their behaviour. Such data can quantify flyway usage, biomass and nutrient transport (bioflow), population sizes, dynamics and distributions, times and dimensions of movements, areas and times of mass emergence and swarming, habitat use and activity ranges. Radar also captures behavioural responses to anthropogenic disturbances, artificial light and man-made structures. Weather surveillance and other long-range radar networks allow spatially broad overviews of important stopover areas, songbird mass roosts and emergences from bat caves. Mobile radars, including repurposed marine radars and commercially dedicated ‘bird radars’, offer the ability to track and monitor the local movements of individuals or groups of flying animals. Harmonic radar techniques have been used for tracking short-range movements of insects and other small animals of conservation interest. However, a major challenge in aeroecology is determining the taxonomic identity of the targets, which often requires ancillary data obtained from other methods. Radar data have become a global source of information on ecosystem structure, composition, services and function and will play an increasing role in the monitoring and conservation of flying animals and threatened habitats worldwide
A hadronization model for few-GeV neutrino interactions
We present a detailed description of a new hadronic multiparticle production model for use in neutrino interaction simulations. Its validity spans a wide invariant mass range starting from pion production threshold. This model focuses on the low invariant mass region which is probed in few-GeV neutrino interactions and is of particular importance to neutrino oscillation experiments using accelerator and atmospheric fluxes. It exhibits reasonable agreement with a wide variety of experimental data. We also describe measurements that can be made in upcoming experiments that can improve modeling in areas where uncertainties are currently large.
COHERENT PRODUCTION OF pi+ pi- MESONS BY CHARGED CURRENT INTERACTIONS OF NEUTRINOS AND ANTI-NEUTRINOS ON NEON NUCLEI AT THE TEVATRON
Coherent single-pion production on neon nuclei is studied using the Fermilab 15-ft bubble chamber filled with a heavy Ne-H2 mixture and exposed to the Tevatron neutrino beam. In the neutrino energy range 40ε300 GeV, the net signal is 20±6 events, giving a corrected rate per charged-current event of (0.26±0.10)%. The cross section and kinematic distributions agree with the predictions of a model based on partial conservation of axial-vector current and meson dominance. © 1989 The American Physical Society.0SCOPUS: ar.jinfo:eu-repo/semantics/publishe