36,028 research outputs found
High Resolution Infrared Spectroscopy Techniques for Upper Atmospheric Measurements
Infrared heterodyne techniques were considered primarily for detecting molecules predicted to be present but not yet detected in the upper atmosphere
Observational Constraints on Transverse Gravity: a Generalization of Unimodular Gravity
We explore the hypothesis that the set of symmetries enjoyed by the theory
that describes gravity is not the full group of diffeomorphisms Diff(M), as in
General Relativity, but a maximal subgroup of it, TransverseDiff(M), with its
elements having a jacobian equal to unity; at the infinitesimal level, the
parameter describing the coordinate change, xi^mu (x), is transverse, i.e.,
partial_mu(xi^mu)=0. Incidentally, this is the smaller symmetry one needs to
propagate consistently a graviton, which is a great theoretical motivation for
considering these theories. Also, the determinant of the metric, g, behaves as
a "transverse scalar", so that these theories can be seen as a generalization
of the better-known unimodular gravity. We present our results on the
observational constraints on transverse gravity, in close relation with the
claim of equivalence with general scalar-tensor theory. We also comment on the
structure of the divergences of the quantum theory to the one-loop order.Comment: Prepared for the First Mediterranean Conference on Classical and
Quantum Gravity, MCCQG, Kolymbari (Crete, Greece), 14-18 September, 2009;
also, ERE2009: Gravitation in the Large, Bilbao (Spain), 7-11 September, 200
Path-Integral Quantization of the (2,2) String
A complete treatment of the (2,2) NSR string in flat (2+2) dimensional
space-time is given, from the formal path integral over N=2 super Riemann
surfaces to the computational recipe for amplitudes at any loop or gauge
instanton number. We perform in detail the superconformal gauge fixing, discuss
the spectral flow, and analyze the supermoduli space with emphasis on the gauge
moduli. Background gauge field configurations in all instanton sectors are
constructed. We develop chiral bosonization on punctured higher-genus surfaces
in the presence of gauge moduli and instantons. The BRST cohomology is
recapitulated, with a new space-time interpretation for picture-changing. We
point out two ways of combining left- and right-movers, which lead to different
three-point functions.Comment: 36 pages, LaTeX; published version (typos & eq.(7.12) corrected
Short-Range Ordered Phase of the Double-Exchange Model in Infinite Dimensions
Using dynamical mean-field theory, we have evaluated the magnetic
instabilities and T=0 phase diagram of the double-exchange model on a Bethe
lattice in infinite dimensions. In addition to ferromagnetic (FM) and
antiferromagnetic (AF) phases, we also study a class of disordered phases with
magnetic short-range order (SRO). In the weak-coupling limit, a SRO phase has a
higher transition temperature than the AF phase for all fillings p below 1 and
can even have a higher transition temperature than the FM phase. At T=0 and for
small Hund's coupling J_H, a SRO state has lower energy than either the FM or
AF phases for 0.26\le p 0 limit
but appears for any non-zero value of J_H.Comment: 11 pages, 3 figures, published versio
Coexistence of Pairing Tendencies and Ferromagnetism in a Doped Two-Orbital Hubbard Model on Two-Leg Ladders
Using the Density Matrix Renormalization Group and two-leg ladders, we
investigate an electronic two-orbital Hubbard model including plaquette
diagonal hopping amplitudes. Our goal is to search for regimes where charges
added to the undoped state form pairs, presumably a precursor of a
superconducting state.For the electronic density , i.e. the undoped
limit, our investigations show a robust antiferromagnetic ground
state, as in previous investigations. Doping away from and for large
values of the Hund coupling , a ferromagnetic region is found to be stable.
Moreover, when the interorbital on-site Hubbard repulsion is smaller than the
Hund coupling, i.e. for in the standard notation of multiorbital Hubbard
models, our results indicate the coexistence of pairing tendencies and
ferromagnetism close to . These results are compatible with previous
investigations using one dimensional systems. Although further research is
needed to clarify if the range of couplings used here is of relevance for real
materials, such as superconducting heavy fermions or pnictides, our theoretical
results address a possible mechanism for pairing that may be active in the
presence of short-range ferromagnetic fluctuations.Comment: 8 pages, 4 Fig
On the \phi(1020)f_0(980) S-wave scattering and the Y(2175) resonance
We have studied the \phi(1020)f_0(980) S-wave scattering at energies around
threshold employing chiral Lagrangians coupled to vector mesons through minimal
coupling. The interaction kernel is obtained by considering the f_0(980) as a
K\bar{K} bound state. The Y(2175) resonance is generated in this approach by
the self-interactions between the \phi(1020) and the f_0(980) resonances. We
are able to describe the e^+e^-\to \phi(1020)f_0(980) recent scattering data to
test experimentally our scattering amplitudes, concluding that the Y(2175)
resonance has a large \phi(1020)f_0(980) meson-meson component.Comment: 20 pages, 8 figure
Thermodynamic modeling of phase separation in manganites
We present a phenomenological model based on the thermodynamics of the phase
separated state of manganites, accounting for its static and dynamic
properties. Through calorimetric measurements on LaPrCaMnO the low temperature free energies of the coexisting
ferromagnetic and charge ordered phases are evaluated. The phase separated
state is modeled by free energy densities uniformly spread over the sample
volume. The calculations contemplate the out of equilibrium features of the
coexisting phase regime, to allow a comparison between magnetic measurements
and the predictions of the model. A phase diagram including the static and
dynamic properties of the system is constructed, showing the existence of
blocked and unblocked regimes which are characteristics of the phase separated
state in manganites.Comment: 7 pages, 5 figures, Submitted to Phys. Rev.
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