80,176 research outputs found
Conditions for Nondistortion Interrogation of Quantum System
Under some physical considerations, we present a universal formulation to
study the possibility of localizing a quantum object in a given region without
disturbing its unknown internal state. When the interaction between the object
and probe wave function takes place only once, we prove the necessary and
sufficient condition that the object's presence can be detected in an initial
state preserving way. Meanwhile, a conditioned optimal interrogation
probability is obtained.Comment: 5 pages, Revtex, 1 figures, Presentation improved, corollary 1 added.
To appear in Europhysics Letter
The Glashow resonance as a discriminator of UHE cosmic neutrinos originating from p-gamma and p-p collisions
We re-examine the interesting possibility of utilizing the Glashow resonance
(GR) channel nu_ebar + e^- to W^- to anything to discriminate between the UHE
cosmic neutrinos originating from p-gamma and pp collisions in an optically
thin source of cosmic rays. We propose a general parametrization of the initial
neutrino flavor composition by allowing the ratios Phi^{p gamma}_{pi^-}/Phi^{p
gamma}_{pi^+} and Phi^{pp}_{pi^-}/Phi^{pp}_{pi^+} to slightly deviate from
their conventional values. A relationship between the typical source parameter
kappa = (Phi^{p gamma}_{pi^+} + Phi^{p gamma}_{pi^-})/(Phi^{pp}_{pi^+} +
Phi^{pp}_{pi^-} + Phi^{p gamma}_{pi^+} + Phi^{p gamma}_{pi^-}) and the working
observable of the GR R_0 = Phi^T_{nu_ebar}/ (Phi^T_{nu_mu} + Phi^T_{nu_mu}) at
a neutrino telescope is derived, and the numerical dependence of R_0 on kappa
is illustrated by taking account of the latest experimental data on three
neutrino mixing angles. It is shown that a measurement of R_0 is in principle
possible to identify the pure p-gamma interaction (kappa =1), the pure pp
interaction (kappa =0) or a mixture of both of them (0 < kappa < 1) at a given
source of UHE cosmic neutrinos. The event rate of the GR signal against the
background is also estimated.Comment: 13 pages, 6 figures, final version to appear in Phys. Rev.
Chaotic Properties of Subshifts Generated by a Non-Periodic Recurrent Orbit
The chaotic properties of some subshift maps are investigated. These
subshifts are the orbit closures of certain non-periodic recurrent points of a
shift map. We first provide a review of basic concepts for dynamics of
continuous maps in metric spaces. These concepts include nonwandering point,
recurrent point, eventually periodic point, scrambled set, sensitive dependence
on initial conditions, Robinson chaos, and topological entropy. Next we review
the notion of shift maps and subshifts. Then we show that the one-sided
subshifts generated by a non-periodic recurrent point are chaotic in the sense
of Robinson. Moreover, we show that such a subshift has an infinite scrambled
set if it has a periodic point. Finally, we give some examples and discuss the
topological entropy of these subshifts, and present two open problems on the
dynamics of subshifts
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