46 research outputs found
Stable non-BPS D-branes of type I
We review the boundary state description of the non-BPS D-branes in the type
I string theory and show that the only stable configurations are the D-particle
and the D-instanton. We also compute the gauge and gravitational interactions
of the non-BPS D-particles and compare them with the interactions of the dual
non-BPS particles of the heterotic string finding complete agreement. In this
way we provide further dynamical evidence of the heterotic/type I duality.Comment: 8 pages, 1 figure.eps, JHEP.cls, talk given by A. Lerda at the TMR
Conference "Quantum aspects of gauge theories, supersymmetry and
unification", Paris, September 199
Ferroelectric C* phase induced in a nematic liquid crystal matrix by a chiral non-mesogenic dopant
We report on a ferroelectric chiral smectic C (C*) phase obtained in a mixture of a nematic liquid
crystal (NLC) and a chiral nonmesogenic dopant. The existence of C* phase was proven by
calorimetric, dielectric and optical measurements, and also by X-rays analysis. The smectic C*
which is obtained in such a way can flow, allowing to restore the ferroelectric liquid crystal layer
structure in the electro-optical cells after action of the mechanical stress, as it happens with the cells
filled with NLC. The proposed method of obtaining smectic C* material allows us to create innovative
electro-optical cell combining the advantages of NLC (mechanical resilience) and smectic C*
(high switching speed
Stable non-BPS D-branes in Type I string theory
We use the boundary state formalism to study, from the closed string point of
view, superpositions of branes and anti-branes which are relevant in some
non-perturbative string dualities. Treating the tachyon instability of these
systems as proposed by A. Sen, we show how to incorporate the effects of the
tachyon condensation directly in the boundary state. In this way we manage to
show explicitly that the D1 -- anti-D1 pair of Type I is a stable non-BPS
D-particle, and compute its mass. We also generalize this construction to
describe other non-BPS D-branes of Type I. By requiring the absence of tachyons
in the open string spectrum, we find which configurations are stable and
compute their tensions. Our classification is in complete agreement with the
results recently obtained using the K-theory of space-time.Comment: 31 pages, plain LaTeX, final version to be published in Nucl. Phys.
Gauge and gravitational interactions of non-BPS D-particles
We study the gauge and gravitational interactions of the stable non-BPS
D-particles of the type I string theory. The gravitational interactions are
obtained using the boundary state formalism while the SO(32) gauge interactions
are determined by evaluating disk diagrams with suitable insertions of boundary
changing (or twist) operators. In particular the gauge coupling of a D-particle
is obtained from a disk with two boundary components produced by the insertion
of two twist operators. We also compare our results with the amplitudes among
the non-BPS states of the heterotic string which are dual to the D-particles.
After taking into account the known duality and renormalization effects, we
find perfect agreement, thus confirming at a non-BPS level the expectations
based on the heterotic/type I duality.Comment: LaTeX File, 29 pages, 3 figures, two references added. Final version
to be published in Nucl. Phys.
Thermal diffusivity and Biot number: a new experimental method
A new simple method is presented for measuring thermal diffusivity and Biot number in cylindrical samples made of relatively highly conducting materials, subjected to laminar air flow. The basic idea is a heat source in the middle section of the sample, acting also as a thermocouple; only one additional temperature sensor at the cylinder basis is required to give all information, without requiring any hypothesis about the effective time dependence of the heat source
Axial Escape of Nematics in Bend Cylindrical Configuration
We investigated the possibility of axial escape of a nematic liquid crystal confined between two concentric cylinders with surface-imposed pure bend distortion. We found that this effect appears also in the case of strong anchoring. When the twist-anchoring is weak only at one of the surfaces, the critical thickness dc of the structure is affected by the saddle-splay elastic constant K24. Moreover, if the twist-anchoring is weak at the external surface, a transition of the first order was found, dc playing the role of an order parameter. Such a transition, characterized by bistability and hysteresis, may be driven by K24 and by the anchoring strength