4,510 research outputs found
Different routes to chaos via strange nonchaotic attractor in a quasiperiodically forced system
This paper focusses attention on the strange nonchaotic attractors (SNA) of a
quasiperiodically forced dynamical system. Several routes, including the
standard ones by which the appearance of strange nonchaotic attractors takes
place, are shown to be realizable in the same model over a two parameters
() domain of the system. In particular, the transition through
torus doubling to chaos via SNA, torus breaking to chaos via SNA and period
doubling bifurcations of fractal torus are demonstrated with the aid of the two
parameter () phase diagram. More interestingly, in order to
approach the strange nonchaotic attractor, the existence of several new
bifurcations on the torus corresponding to the novel phenomenon of torus
bubbling are described. Particularly, we point out the new routes to chaos,
namely, (1) two frequency quasiperiodicity torus doubling torus
merging followed by the gradual fractalization of torus to chaos, (2) two
frequency quasiperiodicity torus doubling wrinkling SNA
chaos SNA wrinkling inverse torus doubling torus
torus bubbles followed by the onset of torus breaking to chaos via SNA or
followed by the onset of torus doubling route to chaos via SNA. The existence
of the strange nonchaotic attractor is confirmed by calculating several
characterizing quantities such as Lyapunov exponents, winding numbers, power
spectral measures and dimensions. The mechanism behind the various bifurcations
are also briefly discussed.Comment: 12 pages, 12 figures, ReVTeX (to appear in Phys. Rev. E
Bifurcation and chaos in the double well Duffing-van der Pol oscillator: Numerical and analytical studies
The behaviour of a driven double well Duffing-van der Pol (DVP) oscillator
for a specific parametric choice () is studied. The
existence of different attractors in the system parameters () domain
is examined and a detailed account of various steady states for fixed damping
is presented. Transition from quasiperiodic to periodic motion through chaotic
oscillations is reported. The intervening chaotic regime is further shown to
possess islands of phase-locked states and periodic windows (including period
doubling regions), boundary crisis, all the three classes of intermittencies,
and transient chaos. We also observe the existence of local-global bifurcation
of intermittent catastrophe type and global bifurcation of blue-sky catastrophe
type during transition from quasiperiodic to periodic solutions. Using a
perturbative periodic solution, an investigation of the various forms of
instablities allows one to predict Neimark instablity in the plane
and eventually results in the approximate predictive criteria for the chaotic
region.Comment: 15 pages (13 figures), RevTeX, please e-mail Lakshmanan for figures,
to appear in Phys. Rev. E. (E-mail: [email protected]
The radial gradient of interplanetary radiation measured by Mariners 4 and 5
Interplanetary radiation radial gradient measured from Mariners 4 and
Neolithic Traces of Krishnagiri District
Archeology and monuments also help to know the cultural period in Tamil Nadu. The life elements of the people of that time can be seen here through the Paleolithic monuments, inscriptions, kalthitta, kalthitta painting, Thazhi, Ark, Iduthulai etc. in some places in Krishnagiri district. Apart from that, people who died during the Sangam period can be known through archeology and their customs and rituals through the monuments. Some of the rituals of the Sangam lifestyle of the Tamils are still followed in the region today. The purpose of this research paper is to bring out the worship of our ancestors from the Sangam period to the present, the rituals and customs and beliefs of some communities are still alive today. According to this, the above monuments through separate studies convey the news about the culture of the people of Krishnagiri district at that time
Constraints on First-Light Ionizing Sources from Optical Depth of the Cosmic Microwave Background
We examine the constraints on high-redshift star formation, ultraviolet and
X-ray pre-ionization, and the epoch of reionization at redshift z_r, inferred
from the recent WMAP-5 measurement, tau_e = 0.084 +/- 0.016, of the electron
scattering optical depth of the cosmic microwave background (CMB). Half of this
scattering can be accounted for by the optical depth, tau_e = 0.04-0.05, of a
fully ionized intergalactic medium (IGM) at z < z_GP = 6-7, consistent with
Gunn-Peterson absorption in neutral hydrogen. The required additional optical
depth, Delta-tau_e = 0.03 +/- 0.02 at z > z_GP, constrains the ionizing
contributions of first light sources. WMAP-5 also measured a significant
increase in small-scale power, which lowers the required efficiency of star
formation and ionization from mini-halos. Early massive stars (UV radiation)
and black holes (X-rays) can produce a partially ionized IGM, adding to the
residual electrons left from incomplete recombination. Inaccuracies in
computing the ionization history, x_e(z), and degeneracies in cosmological
parameters (Omega_m, Omega_b, sigma_8, n_s) add systematic uncertainty to the
measurement and modeling of . From the additional optical depth from
sources at z > z_GP, we limit the star-formation efficiency, the rate of
ionizing photon production for Pop III and Pop II stars, and the photon escape
fraction, using standard histories of baryon collapse, minihalo star formation,
and black-hole X-ray preionization.Comment: Greatly revised version, based on WMAP-5 results and new models.
Accepted for ApJ (2008
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