1,700 research outputs found
Cross-spectral modelling of the black hole X-ray binary XTEJ1550-564: challenges to the propagating fluctuations paradigm
Timing properties of black hole X-ray binaries in outburst can be modeled
with mass accretion rate fluctuations propagating towards the black hole. Such
models predict time lags between energy bands due to propagation delays. First
application of a propagating fluctuations model to black hole power spectra
showed good agreement with the data. Indeed, hard lags observed from these
systems appear to be in agreement with this generic prediction. Our PROPFLUC
code allows to simultaneously predict power spectra, time lags, and coherence
of the variability as a function of energy. This was successfully applied to
Swift data on the black hole MAXIJ1659-152, fitting jointly the power spectra
in two energy bands and the cross-spectrum between these two bands. In the
current work, we attempt to to model two high signal to noise Rossi X-ray
Timing Explorer (RXTE) observations of the black hole XTE J1550-564. We find
that neither observation can be adequately explained by the model even when
considering, additionally to previous PROPFLUC versions, different propagation
speeds of the fluctuations. After extensive exploration of model extensions, we
tentatively conclude that the quantitative and qualitative discrepancy between
model predictions and data is generic to the propagating fluctuations paradigm.
This result encourages further investigation of the fundamental hypotheses of
the propagating fluctuations model. We discuss some of these hypotheses with an
eye to future works.Comment: 14 pages, 12 figures, accepted for publication in MNRA
Evolution of the hot flow of MAXI J1543-564
We present a spectral and timing analysis of the black hole candidate MAXI
J1543-564 during its 2011 outburst. As shown in previous work, the source
follows the standard evolution of a black hole outburst. During the rising
phase of the outburst we detect an abrupt change in timing behavior associated
with the occurrence of a type-B quasi-periodic oscillation (QPO). This QPO and
the simultaneously detected radio emission mark the transition between hard and
soft intermediate state. We fit power spectra from the rising phase of the
outburst using the recently proposed model propfluc. This assumes a truncated
disc / hot inner flow geometry, with mass accretion rate fluctuations
propagating through a precessing inner flow. We link the propfluc physical
parameters to the phenomenological multi-Lorentzian fit parameters. The
physical parameter dominating the QPO frequency is the truncation radius, while
broad band noise characteristics are also influenced by the radial surface
density and emissivity profiles of the flow. In the outburst rise we found that
the truncation radius decreases from to , and the surface
density increases faster than the mass accretion rate, as previously reported
for XTE J1550-564. Two soft intermediate state observations could not be fitted
with propfluc, and we suggest that they are coincident with the ejection of
material from the inner regions of the flow in a jet or accretion of these
regions into the BH horizon, explaining the drop in QPO frequency and
suppression of broad band variability preferentially at high energy bands
coincident with a radio flare.Comment: 13 pages, 11 figures, 2 table
Impact of host plant species and whitefly species on feeding behavior of Bemisia tabaci
Open Access JournalWhiteflies of the Bemisia tabaci species complex are economically important pests of cassava. In Africa, they cause greatest damage through vectoring viruses responsible for cassava mosaic disease and cassava brown streak disease. Several cryptic species from the B. tabaci complex colonize cassava and neighboring crops, but the feeding interactions between the different crops and B. tabaci species are unknown. The electrical penetration graph (EPG) technique makes it possible to conduct detailed feeding studies of sap-sucking insects by creating an electric circuit through the insect and the plant. The apparatus measures the voltage fluctuations while the wired-up insect feeds and produces graphs that describe feeding behavior. We utilized EPG to explore the feeding behavior of cassava-colonizing whiteflies (SSA1-SG3) on cassava, sweet potato, tomato, and cotton; and sweet potato-colonizing whiteflies (MED and IO) on cassava and sweet potato. Results show that: (1) feeding of SSA1-SG3 is not restricted to cassava. The least preferred host for SSA1-SG3 was tomato, where probing was delayed by 99 min compared to 10 min on other hosts, furthermore mean duration of phloem ingestion events was 36 min compared to 260 min on cassava. (2) Feeding of MED on cassava appeared to be non-functional, as it was characterized by short total phloem ingestion periods (5 h). (3) Wire diameter affects the feeding in a statistically and practically significant manner. Implications for whitefly control and studies of host whitefly resistance are discussed
Chaoticity and Dissipation of Nuclear Collective Motion in a Classical Model
We analyze the behavior of a gas of classical particles moving in a
two-dimensional "nuclear" billiard whose multipole-deformed walls undergo
periodic shape oscillations. We demonstrate that a single particle Hamiltonian
containing coupling terms between the particles' motion and the collective
coordinate induces a chaotic dynamics for any multipolarity, independently on
the geometry of the billiard. The absence of coupling terms allows us to
recover qualitatively the "wall formula" predictions. We also discuss the
dissipative behavior of the wall motion and its relation with the
order-to-chaos transition in the dynamics of the microscopic degrees of
freedom.Comment: LateX, 11 pages, 7 figures available on request, to appear in the
Proceedings of XXXIV Winter Meeting on Nuclear Physics, Bormio 22-27 January,
199
Evidence for a long duration component in the prompt emission of short Gamma-Ray Bursts detected with BeppoSAX
A statistical study on the light curves of all the short Gamma-Ray Bursts
detected with the Gamma Ray Burst Monitor (GRBM) aboard BeppoSAX is reported.
Evidence for a very weak and long duration component associated with these
events in the two 1 s counters of the GRBM (40-700 keV and >100 keV) is found.
It starts a few tens of seconds before the burst and continues for about 30 s
after the burst. The overall hardness of this component is comparable with that
of the event itself. The detection of a signal before the onset time and the
similar hardness are consistent with an interpretation of the long duration
component in terms of prompt emission associated with short GRBs.Comment: 12 pages, 6 figures, accepted for publication in ApJ
Ground-state energy and Wigner crystallization in thick 2D-electron systems
The ground state energy of the 2-D Wigner crystal is determined as a function
of the thickness of the electron layer and the crystal structure. The method of
evaluating the exchange-correlation energy is tested using known results for
the infinitely-thin 2D system. Two methods, one based on the local-density
approximation(LDA), and another based on the constant-density approximation
(CDA) are established by comparing with quantum Monte-Carlo (QMC) results. The
LDA and CDA estimates for the Wigner transition of the perfect 2D fluid are at
and 32 respectively, compared with from QMC. For thick-2D
layers as found in Hetero-junction-insulated-gate field-effect transistors, the
LDA and CDA predictions of the Wigner transition are at and 15.5
respectively. Impurity effects are not considered here.Comment: Last figure and Table are modified in the revised version.
Conclusions regarding the Wigner transition in thick layers are modified in
the revised version. Latex manuscript, four figure
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