11,966 research outputs found
A model for retention on short, intermediate and long time-scale in ferroelectric thin films
We developed a model with no adjustable parameter for retention loss at short
and long time scale in ferroelectric thin-film capacitors. We found that the
predictions of this model are in good agreement with the experimental
observations in the literature. In particular, it explains why a power-law
function shows better fitting than a linear-log relation on a short time scale
(10^-7 s to 1 s) and why a stretched exponential relation gives more precise
description than a linear-log plot on a long time scale (>100 s), as reported
by many researchers in the past. More severe retention losses at higher
temperatures and in thinner films have also been correctly predicted by the
present theory.Comment: 15 pages and 3 figure
Unipolar and bipolar fatigue in antiferroelectric lead zirconate thin films and evidences for switching-induced charge injection inducing fatigue
For the first time, we show that unipolar fatigue does occur in
antiferroelectric capacitors, confirming the predictions of a previous work
[Appl. Phys. Lett., 94, 072901 (2009)]. We also show that unipolar fatigue in
antiferroelectrics is less severe than bipolar fatigue if the driving field is
of the same magnitude. This phenomenon has been attributed to the
switching-induced charge injection, the main cause for polarization fatigue in
ferroelectric and antiferroelectric materials. Other evidences for polarization
fatigue caused by the switching-induced charge injection from the nearby
electrode rather than the charge injection during stable/quasi-stable leakage
current stage are also discussed.Comment: 10 pages and 2 figure
Statistical switching kinetics in ferroelectrics
By assuming a more realistic nucleation and polarization reversal scenario we
build a new statistical switching model for ferroelectrics, which is different
from either the Kolmogorov-Avrami-Ishibashi (KAI) model or the
Nucleation-Limited-Switching (NLS) model. After incorporating a time-dependent
depolarization field this model gives a good description about the retardation
behavior in polycrystalline thin films at medium or low fields, which can not
be described by the traditional KAI model. This model predicts correctly n=1
for polycrystalline thin films at high Eappl or ceramic bulks in the ideal
case
On Robust Stability of Limit Cycles for Hybrid Systems with Multiple Jumps
In this paper, we address stability and robustness properties of hybrid limit cycles for a class of hybrid systems with multiple jumps in one period. The main results entail equivalent characterizations of stability of hybrid limit cycles for hybrid systems. The hybrid limit cycles may have multiple jumps in one period and the jumps are allowed to occur on sets. Conditions guaranteeing robustness of hybrid limit cycles are also presented
An Internal Control Evaluation Tool For Advertising Revenue In The Newspaper And Magazine Publishing Industry
Even before the recent economic downturn, the newspaper and magazine publishing industry had been experiencing unprecedented change, with some companies facing an immediate need to either invent a new business model or else cease operations. The current economic slowdown has, in many cases, exacerbated those challenges. These trends have had the effect of increasing the risk of fraudulent financial reporting. The revenue cycle continues to be one of the most important areas for auditors to examine for possible fraud and one for which strong, comprehensive internal controls are especially important (AICPA 2002). This paper presents an internal control review checklist for advertising revenue in the newspaper and magazine publishing industry. This checklist may be used by independent auditors as a general benchmark in performing a preliminary evaluation of a company’s internal controls over advertising revenue. In instances where important internal controls on the checklist have been omitted from the client’s system, the auditor should consider whether the omission increases audit risk. The checklist may also be used by CFOs or controllers in the industry to help determine whether their company’s internal control system is adequate
Periodic and Localized Solutions of the Long Wave-Short Wave Resonance Interaction Equation
In this paper, we investigate the (2+1) dimensional long wave-short wave
resonance interaction (LSRI) equation and show that it possess the Painlev\'e
property. We then solve the LSRI equation using Painlev\'e truncation approach
through which we are able to construct solution in terms of three arbitrary
functions. Utilizing the arbitrary functions present in the solution, we have
generated a wide class of elliptic function periodic wave solutions and
exponentially localized solutions such as dromions, multidromions, instantons,
multi-instantons and bounded solitary wave solutions.Comment: 13 pages, 6 figure
Distribution of Spectral Lags in Gamma Ray Bursts
Using the data acquired in the Time To Spill (TTS) mode for long gamma-ray
bursts (GRBs) collected by the Burst and Transient Source Experiment on board
the Compton Gamma Ray Observatory (BATSE/CGRO), we have carefully measured
spectral lags in time between the low (25-55 keV) and high (110-320 keV) energy
bands of individual pulses contained in 64 multi-peak GRBs. We find that the
temporal lead by higher-energy gamma-ray photons (i.e., positive lags) is the
norm in this selected sample set of long GRBs. While relatively few in number,
some pulses of several long GRBs do show negative lags. This distribution of
spectral lags in long GRBs is in contrast to that in short GRBs. This apparent
difference poses challenges and constraints on the physical mechanism(s) of
producing long and short GRBs. The relation between the pulse peak count rates
and the spectral lags is also examined. Observationally, there seems to be no
clear evidence for systematic spectral lag-luminosity connection for pulses
within a given long GRB.Comment: 20 pages, 4 figure
Phase Separation of Bismuth Ferrite into Magnetite under Voltage Stressing
Micro-Raman studies show that under ~700 kV/cm of d.c. voltage stressing for
a few seconds, thin-film bismuth ferrite BiFeO3 phase separates into magnetite
Fe3O4. No evidence is found spectroscopically of hemite alpha-Fe2O3, maghemite
gamma-Fe2O3, or of Bi2O3. This relates to the controversy regarding the
magnitude of magnetization in BiFeO3.Comment: 9 pages and 2 figure
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