793 research outputs found
A principal possibility for computer investigation of evolution of dynamical systems with independent on time accuracy
Extensive N-body simulations are among the key means for the study of
numerous astrophysical and cosmological phenomena, so various schemes are
developed for possibly higher accuracy computations. We demonstrate the
principal possibility for revealing the evolution of a perturbed Hamiltonian
system with an accuracy independent on time. The method is based on the Laplace
transform and the derivation and analytical solution of an evolution equation
in the phase space for the resolvent and using computer algebra.Comment: Eur Phys Journ C (in press), to match the version to appear, 7 pages,
3 fig
Anti-solar differential rotation on the active sub-giant HU Virginis
Measuring surface differential rotation (DR) on different types of stars is
important when characterizing the underlying stellar dynamo. It has been
suggested that anti-solar DR laws can occur when strong meridional flows exist.
We aim to investigate the differential surface rotation on the primary star of
the RS CVn binary HU Vir by tracking its starspot distribution as a function of
time. We also aim to recompute and update the values for several system
parameters of the triple system HU Vir (close and wide orbits). Time-series
high-resolution spectroscopy for four continuous months was obtained with the
1.2-m robotic STELLA telescope. Nine consecutive Doppler images were
reconstructed from these data, using our line-profile inversion code iMap. An
image cross-correlation method was applied to derive the surface
differential-rotation law for HU Vir. New orbital elements for the close and
the wide orbits were computed using our new STELLA radial velocities (RVs)
combined with the RV data available in the literature. Photometric observations
were performed with the Amadeus Automatic Photoelectric Telescope (APT),
providing contemporaneous Johnson-Cousins and data for approximately 20
years. This data was used to determine the stellar rotation period and the
active longitudes. We confirm anti-solar DR with a surface shear parameter
of -0.029 0.005 and -0.026 0.009, using single-term and
double-term differential rotation laws, respectively. The best fit is achieved
assuming a solar-like double-term law with a lap time of 400 d. Our
orbital solutions result in a period of 10.387678 0.000003 days for the
close orbit and 2726 7 d ( 7.5 yr) for the wide orbit. A
Lomb-Scarge (L-S) periodogram of the pre-whitened -band data reveals a
strong single peak providing a rotation period of 10.391 0.008 d.Comment: Accepted for publication in A&
Micropropagation of grapevine (Vitis vinifera L.) seedless cultivar 'Parvana' through lateral bud development
Factors affecting successful establishment in vitro, rapid proliferation, rooting and acclimatization of grapevine seedless cultivation 'Parvana' were studied. A treatment combination of 2.0 % calcium hypochlorite for 7 minutes plus 70 % ethanol for 3 minutes was found to be effective with 75.0 % of aseptic culture establishment in vitro. The highest number of new microshoots (4.5) was obtained in a culture medium (Gambourg's B5 modification) supplemented with 0.6 mg∙L-1 BAP + 0.2 mg∙L-1 KIN + 0.5 mg∙L-1 GA3. Presence of GA3 in combination with BAP and KIN promoted elongation of shoots. A concentration of 0.4 mg/l IAA in half strength of MS (Murashige and Skoog) proved to be the best for rooting (84.4 % root induction, 4.66 roots with 7.9 cm length). In vitro rooted plantlets were successfully acclimatized, with 82.2 % survival rate in plastic pots containing garden soil, sand and peat moss(1:1:1). In this study an efficient micro propagation technique of grapevine seedless cultivar 'Parvana' was successfully achieved through lateral bud culture. Such a technique would be useful for large scale plant production and in vitro conservation
Pre-determining the location of electromigrated gaps by nonlinear optical imaging
In this paper we describe a nonlinear imaging method employed to spatially
map the occurrence of constrictions occurring on an electrically-stressed gold
nanowire. The approach consists at measuring the influence of a tightly focused
ultrafast pulsed laser on the electronic transport in the nanowire. We found
that structural defects distributed along the nanowire are efficient nonlinear
optical sources of radiation and that the differential conductance is
significantly decreased when the laser is incident on such electrically-induced
morphological changes. This imaging technique is applied to pre-determined the
location of the electrical failure before it occurs.Comment: 3 figure
Coherent Control of Light Scattering from Nanostructured Materials by Second-Harmonic Generation
We introduce an active, all-optical method for controlling the intensity and directionality of light scattering from single nanostructures. The method is based on the coherent interplay between linear light scattering and second-harmonic generation. The intensity and directionality of scattered light can be controlled by the phase delay and the relative angle between excitation beams. We discuss the principle of this coherent control technique and perform numerical model calculations
Broadband Study of Gamma-Ray Blazars at Redshifts
High redshift blazars are among the most powerful non-explosive sources in
the Universe and play a crucial role in understanding the evolution of
relativistic jets. To understand these bright objects, we performed a detailed
investigation of the multiwavelength properties of 79 -ray blazars with
redshifts ranging from z = 2.0 to 2.5, using data from Fermi LAT, Swift
XRT/UVOT, and NuSTAR observations. In the -ray band, the spectral
analysis revealed a wide range of flux and photon indices, from to photons cm s and from 1.66 to
3.15, respectively, highlighting the diverse nature of these sources. The
detailed temporal analysis showed that flaring activities were observed in 31
sources. Sources such as 4C+71.07, PKS 1329-049, and 4C+01.02, demonstrated
significant increase in the -ray luminosity and flux variations,
reaching peak luminosity exceeding erg s. The temporal
analysis extended to X-ray and optical/UV bands, showed clear flux changes in
some sources in different observations. The time-averaged properties of high
redshift blazars were derived through modeling the spectral energy
distributions with a one-zone leptonic scenario, assuming the emission region
is within the broad-line region (BLR) and the X-ray and -ray emissions
are due to inverse Compton scattering of synchrotron and BLR-reflected photons.
This modeling allowed us to constrain the emitting particle distribution,
estimate the magnetic field inside the jet, and evaluate the jet luminosity,
which is discussed in comparison with the disk luminosity derived from fitting
the excess in the UV band.Comment: Accepted for publication in MNRA
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