57,632 research outputs found
A comparison of frequency estimation techniques for high-dynamic trajectories
A comparison is presented for four different estimation techniques applied to the problem of continuously estimating the parameters of a sinusoidal Global Positioning System (GPS) signal, observed in the presence of additive noise, under extremely high-dynamic conditions. Frequency estimates are emphasized, although phase and/or frequency rate are also estimated by some of the algorithms. These parameters are related to the velocity, position, and acceleration of the maneuvering transmitter. Estimated performance at low carrier-to-noise ratios and high dynamics is investigated for the purpose of determining the useful operating range of an approximate Maximum Likelihood (ML) estimator, an Extended Kalman Filter (EKF), a Cross-Product Automatic Frequency Control (CPAFC) loop, and a digital phase-locked loop (PPL). Numerical simulations are used to evaluate performance while tracking a common trajectory exhibiting high dynamics
Birefringence analysis of multilayer leaky cladding optical fibre
We analyse a multilayer leaky cladding (MLC) fibre using the finite element
method and study the effect of the MLC on the bending loss and birefringence of
two types of structures: (i) a circular core large-mode-area structure and (ii)
an elliptical-small-core structure. In a large-mode-area structure, we verify
that the multilayer leaky cladding strongly discriminates against higher order
modes to achieve single-mode operation, the fibre shows negligible
birefringence, and the bending loss of the fibre is low for bending radii
larger than 10 cm. In the elliptical-small-core structure we show that the MLC
reduces the birefringence of the fibre. This prevents the structure from
becoming birefringent in case of any departures from circular geometry. The
study should be useful in the designs of MLC fibres for various applications
including high power amplifiers, gain flattening of fibre amplifiers and
dispersion compensation.Comment: 18 page
Electronic states of PrCoO: X-ray photoemission spectroscopy and LDA+U density of states studies
Electronic states of PrCoO are studied using x-ray photoemission
spectroscopy. Pr 3d core level and valence band (VB) were recorded
using Mg K source. The core level spectrum shows that the 3d
level is split into two components of multiplicity 4 and 2, respectively due to
coupling of the spin states of the hole in 3d with Pr 4f holes spin
state. The observed splitting is 4.5 eV. The VB spectrum is interpreted using
density of states (DOS) calculations under LDA and LDA+U. It is noted that LDA
is not sufficient to explain the observed VB spectrum. Inclusion of on-site
Coulomb correlation for Co 3d electrons in LDA+U calculations gives DOS which
is useful in qualitative explanation of the ground state. However, it is
necessary to include interactions between Pr 4f electrons to get better
agreement with experimental VB spectrum. It is seen that the VB consists of Pr
4f, Co 3d and O 2p states. Pr 4f, Co 3d and O 2p bands are highly mixed
indicating strong hybridization of these three states. The band near the Fermi
level has about equal contributions from Pr 4f and O 2p states with somewhat
smaller contribution from Co 3d states. Thus in the Zaanen, Sawatzky, and Allen
scheme PrCoO can be considered as charge transfer insulator. The charge
transfer energy can be obtained using LDA DOS calculations and the
Coulomb-exchange energy U' from LDA+U. The explicit values for PrCoO are
= 3.9 eV and U' = 5.5 eV; the crystal field splitting and 3d bandwidth
of Co ions are also found to be 2.8 and 1.8 eV, respectively.Comment: 12 pages, 7 figures; to appear J. Phys.: Condens. Matte
Anomalous Raman scattering from phonons and electrons of superconducting FeSe
We report interesting anomalies in the temperature dependent Raman spectra of
FeSe measured from 3K to 300K in the spectral range from 60 to 1800
cm and determine their origin using complementary first-principles
density functional calculations. A phonon mode near 100 cm exhibits a
sharp increase by 5% in frequency below a temperature T ( 100
K) attributed to strong spin-phonon coupling and onset of short-range
antiferromagnetic order. In addition, two high frequency modes are observed at
1350 cm and 1600 cm, attributed to electronic Raman scattering
from ()to / -orbitals of Fe.Comment: 19 pages, 4 figures, 1 tabl
Comparison of traditional physico-chemical methods and molecular marker assays for characterization of Basmati rice (Oryza sativa L.)
This study was aim to review the efficiency of molecular markers and traditional physico-chemical methods for the identification of basmati rice. The study involved 44 promising varieties of Indica rices collected from geographically distant places and adapted to irrigated and aerobic agro-ecosystems. Quality data for physical characteristics and organoleptic evaluation observed in AICRP trials and fingerprints based on inter-SSR- PCR and SSR-PCR assays were used and all the varieties were grouped into two major distinct clusters based on distance matrices. The 22 varieties adapted to aerobic agro-ecosystem were classified into a single largest cluster. Both traditional and evolved basmati (EB) varieties were clustered with varieties adapted to irrigated agro-ecosystem. Estimates of genetic diversity between varieties adapted to irrigated and aerobic rice were more prominent than that observed between basmati varieties as was indicated by both the molecular assays. Estimates of physico-chemical quality parameters supplemented with organoleptic attributes were observed to be adequate to provide confirmatory unscrupulous identification of basmati rice.Key words: Basmati rice, physico-chemical characteristics, molecular markers, genetic diversity, organoleptic evaluation
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