38,949 research outputs found
Relic abundance of dark matter particles: new formulation and new result of abundance calculation
A new theoretical framework for computation of the relic abundance of cold
dark matter particles such as LSP is presented and some generic features of new
results are discussed. The most important is a generalization of the Boltzmann
equation to include off-shell effects and its thermal average over cosmic
medium. It is shown that at very low temperatures, much below the mass of
annihilating particles, equilibrium abundance is suppressed only by powers of
temperature instead of the exponential Boltzmann factor. This change gives a
larger relic abundance when heavy particles freeze out at these low
temperatures.Comment: 7 pages, LATEX file. Talk given at COSMO9
Catastrophic Particle Production under Periodic Perturbation
We develop a formalism to investigate the behavior of quantum field and
quantum ground state when the field is coupled to perturbation that
periodically oscillates. Working in the Schroedinger picture of quantum field
theory, we confirm that the phenomenon of parametric resonance in the classical
theory implies an instability of quantum vacuum, and correspondingly it gives
rise to catastrophic particle production if the oscillation lasts indefinitely;
the produced number of particles exponentially increases without bound as time
proceeds. The density matrix describing the limiting stage of the quantum state
is determined by a small set of parameters. Moreover, the energy spectrum and
the intensity of produced particles are worked out in greatest detail in the
limit of weak coupling or small amplitude perturbation. In the case of strong
coupling or large amplitude perturbation the leading adiabatic formula is
derived. Application to cosmological fate of weakly interacting spinless fields
(WISF) such as the invisible axion, the Polonyi, and the modular fields is
discussed. Although very little effect is expected on the invisible axion, the
Polonyi type field has a chance that it catastrophically decays at an early
epoch without much production of entropy, provided that an intrinsic coupling
is large enough.Comment: 33 page
Towards Resolution of Hierarchy Problems in a Cosmological Context
A cosmological scenario is proposed, which simultaneously solves the mass
hierarchy and the small dark energy problem. In the present scenario an
effective gravity mass scale (inverse of the Newton's constant) increases
during the inflationary period. The small cosmological constant or the dark
energy density in the present universe is dynamically realized by introducing
two, approximately O(2) symmetric dilatons, taking the fundamental mass scale
at TeV.Comment: 12 pages, no figur
Application of design sensitivity analysis for greater improvement on machine structural dynamics
Methodologies are presented for greatly improving machine structural dynamics by using design sensitivity analyses and evaluative parameters. First, design sensitivity coefficients and evaluative parameters of structural dynamics are described. Next, the relations between the design sensitivity coefficients and the evaluative parameters are clarified. Then, design improvement procedures of structural dynamics are proposed for the following three cases: (1) addition of elastic structural members, (2) addition of mass elements, and (3) substantial charges of joint design variables. Cases (1) and (2) correspond to the changes of the initial framework or configuration, and (3) corresponds to the alteration of poor initial design variables. Finally, numerical examples are given for demonstrating the availability of the methods proposed
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