30,598 research outputs found
Industrialization and Pollution
People have been polluting air since the time they learnt to use fire, but the anthropogenic air pollution has rapidly increased since industrialization. In older days there were famine, starvation, horses and buggies fire places that spewed forth sort from burning soft coal and
wood and water contaminated with micro-organisms that contributed to air pollution. But the people were so few and the land so vast that these excesses (insults) could be absorbed without serious consequences. Today, of the more than five billion (over 500 crore) people of whom
many are maintaining a high standard of living using more energy and products than before - has resulted in more toxic wastes. The enormous industrial growth, a measure of development is mainly responsible for the high standard of living and this in turn is greately exploiting the nat-ural resources and is a major contributor to the pollution loads in the world
Unexplored photoluminescence from bulk and mechanically exfoliated few layers of Bi2Te3
We report the exotic photoluminescence (PL) behaviour of 3D topological
insulator Bi2Te3 single crystals grown by customized self-flux method and
mechanically exfoliated few layers (18 plus minus 2 nm)/thin flakes obtained by
standard scotch tape method from as grown Bi2Te3 crystals.The experimental PL
studies on bulk single crystal and mechanically exfoliated few layers of Bi2Te3
evidenced a broad red emission in the visible region. These findings are in
good agreement with our theoretical results obtained using the ab initio
density functional theory framework.Comment: Main MS (17 Pages text including 4 Figs): Suppl. info. (4 pages);
Accepted Scientific Report
Magneto-transport characteristics of La1.4Ca1.6Mn2O7 thin film deposited by spray pyrolysis
Polycrystalline thin films of double layer manganite La_1.4Ca_1.6Mn_2O_7
(DLCMO) have been deposited by nebulized spray pyrolysis on single crystal
LaAlO_3 substrates. These single phase films having grain size in the range
70-100 nm exhibit ferromagnetic transition at T_C ~ 107K. The short range
ferromagnetic ordering due to in plane spin coherence is evidenced to occur at
a higher temperature around 225 K. Insulator/semiconductor to metal transition
occurs at a lower temperature T_P ~ 55K. The transport mechanism above T_C is
of Mott`s variable range hopping type. Below T_C the current-voltage
characteristics show non-linear behaviour that becomes stronger with decreasing
temperature. At low temperatures below T_CA ~ 30K a magnetically frustrated
spin canted state is observed. The DLCMO films exhibit resonable low field
magnetoresistance and at 77K the magnetoresistance ratio is ~ 5% at 0.6 kOe and
\~ 13% at 3 kOe.Comment: 14 pages, 7 figure
Duality symmetric massive type II theories in D=8 and D=6
We study compactification of massive type IIA supergravity in presence
of possible Ramond-Ramond (RR) background fluxes. The resulting theory in D=8
is shown to possess full T-duality symmetry similar to
the massless case. It is shown that elements of duality symmetry interpolate
between massive type IIA compactified on and ordinary type IIA
compactified on with RR 2-form flux. We also discuss relationship between
M-theory vacua and massive type IIA vacua. The D8-brane is found to correspond
to M-theory `pure gravity' solution which is a direct product of 7-dimensional
Minkowski space and a 4-dimensional instanton. We also construct D6-D8 bound
state which preserves 1/2 supersymmetries. We then discuss massive IIA
compactification on and point out that when all possible RR fluxes on
are turned on the six-dimensional theory appears to assume a nice SO(4,4)
invariant form.Comment: 19 pages, JHEP3, typos fixed, references added; v2: small correction
in eq.(5.3), published in JHE
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