291 research outputs found
Evaluation of biodegradation kinetic constants for aromatic compounds by means of aerobic batch experiments
Kinetics of aerobic biodegradation have been investigated for twenty aromatic species using sludges collected from the aeration basin of municipal sewage treatment plants. The reproducibility of the results is tested with respect to the sludges period of collection and the wastewater treatment plant where they are taken. The comparison of kinetic constants, estimated for the investigated chemicals, allows to evaluate the reactivity effect of single groups (i.e., -OH, -CH3, -Cl, -NO2) into the aromatic structures. The search for easy structure-reactivity relationships is also attempted by means of contributing group methods
The B-field soft theorem and its unification with the graviton and dilaton
In theories of Einstein gravity coupled with a dilaton and a two-form, a soft
theorem for the two-form, known as the Kalb-Ramond B-field, has so far been
missing. In this work we fill the gap, and in turn formulate a unified soft
theorem valid for gravitons, dilatons and B-fields in any tree-level scattering
amplitude involving the three massless states. The new soft theorem is fixed by
means of on-shell gauge invariance and enters at the subleading order of the
graviton's soft theorem. In contrast to the subsubleading soft behavior of
gravitons and dilatons, we show that the soft behavior of B-fields at this
order cannot be fully fixed by gauge invariance. Nevertheless, we show that it
is possible to establish a gauge invariant decomposition of the amplitudes to
any order in the soft expansion. We check explicitly the new soft theorem in
the bosonic string and in Type II superstring theories, and furthermore
demonstrate that, at the next order in the soft expansion, totally gauge
invariant terms appear in both string theories which cannot be factorized into
a soft theorem.Comment: 27 pages, 1 figur
Multiloop Soft Theorem for Gravitons and Dilatons in the Bosonic String
We construct, in the closed bosonic string, the multiloop amplitude involving
tachyons and one massless particle with compactified directions,
and we show that at least for , the soft behaviors of the graviton and
dilaton satisfy the same soft theorems as at the tree level, up to one
additional term at the subsubleading order, which can only contribute to the
dilaton soft behavior and which we show is zero at least at one loop. This is
possible, since the infrared divergences due to the non-vanishing tachyon and
dilaton tadpoles do not depend on the number of external particles and are
therefore the same both in the amplitude with the soft particle and in the
amplitude without the soft particle. Therefore this leaves unchanged the soft
operator acting on the amplitude without the soft particle. The additional
infrared divergence appearing for depend on the number of external
legs and must be understood on their own.Comment: 20 p. + 23 p. appendices. New version to match the published version;
new appendix (A) added and dependence on compactification radii clarifie
Double-soft behavior of the dilaton of spontaneously broken conformal invariance
The Ward identities involving the currents associated to the spontaneously
broken scale and special conformal transformations are derived and used to
determine, through linear order in the two soft-dilaton momenta, the
double-soft behavior of scattering amplitudes involving two soft dilatons and
any number of other particles. It turns out that the double-soft behavior is
equivalent to performing two single-soft limits one after the other. We confirm
the new double-soft theorem perturbatively at tree-level in a -dimensional
conformal field theory model, as well as nonperturbatively by using the
"gravity dual'' of super Yang-Mills on the Coulomb branch; i.e.
the Dirac-Born-Infeld action on AdS.Comment: 48 pages, one appendi
Double-soft behavior for scalars and gluons from string theory
We compute the leading double-soft behavior for gluons and for the scalars
obtained by dimensional reduction of a higher dimensional pure gauge theory,
from the scattering amplitudes of gluons and scalars living in the world-volume
of a Dp-brane of the bosonic string. In the case of gluons, we compute both the
double-soft behavior when the two soft gluons are contiguous as well as when
they are not contiguous. From our results, that are valid in string theory, one
can easily get the double-soft limit in gauge field theory by sending the
string tension to infinity.Comment: 25 pages, 1 figur
Boundary State for Magnetized D9 Branes and One-Loop Calculation
We construct the boundary state describing magnetized D9 branes in R^{3,1} x
T^6 and we use it to compute the annulus and Moebius amplitudes. We derive from
them, by using open/closed string duality, the number of Landau levels on the
torus T^d.Comment: 12 pages,in honor of Adriano Di Giacomo on his 70th birthday,
contribution to the Festschrif
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