224,443 research outputs found
Distance, magnetic field and kinematics of a filamentary cloud LDN 1157
LDN 1157, is one of the several clouds situated in the cloud complex, LDN
1147/1158, represents a coma-shaped morphology with a well-collimated bipolar
outflow emanating from a Class 0 protostar, LDN 1157-mm. The main goals of this
work are (a) to map the inter-cloud magnetic field (ICMF) geometry of the
region surrounding LDN 1157 to investigate its relationship with the cloud
morphology, with the outflow direction and with the core magnetic field (CMF)
geometry inferred from the mm- and sub-mm polarization results from the
literature, and (b) to investigate the kinematic structure of the cloud. We
carried out R-band polarization observations of the stars projected on the
cloud to map the pc-scale magnetic field geometry and made spectroscopic
observations of the entire cloud in 12CO, C18O and N2H+ (J=1-0) lines to
investigate its kinematic structure. We obtained a distance of 3403 pc to
the LDN 1147/1158, complex based on the Gaia DR2 parallaxes and proper motion
values of the three YSOs associated with the complex. A single filament of
pc in length and pc in width is found to run all along the
coma-shaped cloud. Based on the relationships between the ICMF, CMF, filament
orientations, outflow direction, and the presence of an hour-glass morphology
of the magnetic field, it is likely that the magnetic field had played an
important role in the star formation process in LDN 1157. Combining the proper
motions of the YSOs and the radial velocity of LDN 1147/1158 and another
complex LDN 1172/1174 which is situated \dgr~east of it, we found that
both the complexes are moving collectively toward the Galactic plane. The
filamentary morphology of the east-west segment of LDN 1157 may have formed as
a result of mass lost by ablation due to the interaction of the moving cloud
with the ambient interstellar medium.Comment: 20 pages, Accepted in Astronomy & Astrophysics, Abstract has been
shortened due to word limit in arxi
Overbarrier Resonances as Solutions of Set Inhomogeneous Schr\"{o}dinger Equations
In the paper the Schr\"odinger equation for quasibound resonance state with
complex energy is considered. The system of inhomogeneous differential
equations is obtained for the real and imaginary parts of wave function. On the
base of known solution of corresponding homogeneous equation, the inhomogeneus
system is solved with help of iteration procedure. The single-particle neutron
-state in the Woods - Saxon potential is analyzed for nucleus.Comment: 19 pages, 3 figure
Unified entropy, entanglement measures and monogamy of multi-party entanglement
We show that restricted shareability of multi-qubit entanglement can be fully
characterized by unified- entropy. We provide a two-parameter class of
bipartite entanglement measures, namely unified- entanglement with its
analytic formula in two-qubit systems for , and
. Using unified- entanglement, we establish a broad class of
the monogamy inequalities of multi-qubit entanglement for , and .Comment: 17 pages, 1 figur
Multivariate p-dic L-function
We construct multivariate p-adic L-function in the p-adic number fild by
using Washington method.Comment: 9 page
Quantum network architecture of tight-binding models with substitution sequences
We study a two-spin quantum Turing architecture, in which discrete local
rotations \alpha_m of the Turing head spin alternate with quantum controlled
NOT-operations. Substitution sequences are known to underlie aperiodic
structures. We show that parameter inputs \alpha_m described by such sequences
can lead here to a quantum dynamics, intermediate between the regular and the
chaotic variant. Exponential parameter sensitivity characterizing chaotic
quantum Turing machines turns out to be an adequate criterion for induced
quantum chaos in a quantum network.Comment: Accepted for publication in J. mod. Optics [Proc. Workshop
"Entanglement and Decoherence", Gargnano (Italy), Sept 1999], 3 figure
Photoproduction off the nucleon revisited: Evidence for a narrow N(1688) resonance?
Revised analysis of beam asymmetry for the photoproduction on
the free proton reveals a structure at GeV. Fit of the
experimental data based on the E429 solution of the SAID partial wave analysis
suggests a narrow ( MeV) resonance. Possible candidates are
, or resonances. The result is considered in
conjunction with the recent evidence for a bump-like structure at GeV in the quasi-free photoproduction on the neutron.Comment: Contribution to the Workshop on the Physics of the Excited Nucleons
NSTAR2007, Bonn, Germany, Sept. 5 - 8 2007. To be published in Eur.Phys.J.
Off-diagonal magnetoimpedance in field-annealed Co-based amorphous ribbons
The off-diagonal magnetoimpedance in field-annealed CoFeSiB amorphous ribbons
was measured in the low-frequency range using a pick-up coil wound around the
sample. The asymmetric two-peak behavior of the field dependence of the
off-diagonal impedance was observed. The asymmetry is attributed to the
formation of a hard magnetic crystalline phase at the ribbon surface. The
experimental results are interpreted in terms of the surface impedance tensor.
It is assumed that the ribbon consists of an inner amorphous region and surface
crystalline layers. The coupling between the crystalline and amorphous phases
is described through an effective bias field. A qualitative agreement between
the calculated dependences and experimental data is demonstrated. The results
obtained may be useful for development of weak magnetic-field sensors.Comment: 19 pages, 6 figure
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