1,323 research outputs found
Incipient ferroelectricity in 2.3% tensile-strained CaMnO3 films
Epitaxial CaMnO3 films grown with 2.3% tensile strain on (001)-oriented
LaAlO3 substrates are found to be incipiently ferroelectric below 25 K. Optical
second harmonic generation (SHG) was used for the detection of the incipient
polarization. The SHG analysis reveals that CaMnO3 crystallites with in-plane
orientation of the orthorhombic b axis contribute to an electric polarization
oriented along the orthorhombic a (resp.\ c) axis in agreement with the
predictions from density functional calculations
Dynamics of spin and orbital phase transitions in YVO3
YVO3 exhibits a well separated sequence of orbital and spin order transitions
at 200 K and 116 K, followed by a combined spin-orbital reorientation at 77 K.
It is shown that the spin order can be destroyed by a sufficiently strong
optical pulse within less than 4 ps. In contrast, the orbital reordering
transition from C-type to G-type orbital order is slower than 100 ps and goes
via an intermediate nonthermal phase. We propose that the dynamics of phase
transitions is subjected to symmetry relations between the associated phases.Comment: 5 pages, 3 figure
OH(1720 MHz) Masers As Signposts of Molecular Shocks
We present observations of molecular gas made with the 15-m James Clark
Maxwell Telescope toward the sites of OH(1720 MHz) masers in three supernova
remnants: W28, W44 and 3C391. Maps made in the 12CO J=3-2 line reveal that the
OH masers are preferentially located along the edges of thin filaments or
clumps of molecular gas. There is a strong correlation between the morphology
of the molecular gas and the relativistic gas traced by synchrotron emission at
centimeter wavelengths. Broad CO line widths (dV=30-50 km/s) are seen along
these gaseous ridges, while narrow lines are seen off the ridges. The ratio of
H2CO line strengths is used to determine temperatures in the broad-line gas of
80 K, and the 13CO J=3-2 column density suggests densities of 10^4-10^5 cm{-3}.
These observations support the hypothesis that the OH(1720 MHz) masers
originate in post-shock gas, heated by the passage of a supernova remnant shock
through dense molecular gas. From the observational constraints on the density,
velocity and magnetic field we examine the physical properties of the shock and
discuss the shock-production of OH. These OH(1720 MHz) masers are useful
``signposts'', which point to the most promising locations to study supernova
remnant/molecular cloud interactions.Comment: ApJ (in press
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