1,763 research outputs found
On the solutions of the nonlinear Liouville hierarchy
We investigate the initial-value problem of the non-linear Liouville
hierarchy. For the general form of the interaction potential we construct an
explicit solution in terms of an expansion over particle clusters whose
evolution is described by the corresponding-order cumulant of evolution
operators of a system of finitely many particles. For the initial data from the
space of integrable functions the existence of a strong solution of the Cauchy
problem is proved.Comment: 9 page
Theory of Raman scattering from Leggett's collective mode in a multiband superconductor: Application to MgB
In 1966 Leggett used a two-band superconductor to show that a new collective
mode could exist at low temperatures, corresponding to a counter-flow of the
superconducting condensates in each band. Here, the theory of electronic Raman
scattering in a superconductor by Klein and Dierker (1984) is extended to a
multiband superconductor. Raman scattering creates particle/hole pairs. In the
relevant \ symmetry, the attraction that produces pairing necessarily
couples excitations of superconducting pairs to these p/h excitations. In the
Appendix it is shown that for zero wave vector transfer this coupling
modifies the Raman response and makes the long-range Coulomb correction null.
The 2-band result is applied to MgB where this coupling activates
Leggett's collective mode. His simple limiting case is obtained when the
interband attractive potential is decreased to a value well below that given by
LDA theory. The peak from Leggett's mode is studied as the potential is
increased through the theoretical value: With realistic MgB\ parameters,
the peak broadens through decay into the continuum above the smaller (
band) superconducting gap. Finite effects are also taken into account,
yielding a Raman peak that agrees well in energy with the experimental result
by Blumberg \textit{et el.} (2007). This approach is also applied to the ,
2-band model of the Fe-pnictides considered by Chubukov \textit{et al.}(2009).Comment: 10 pages, 3 figures. To appear in Physical Review
Quantum Breathing Mode of Interacting Particles in a One-dimensional Harmonic Trap
Extending our previous work, we explore the breathing mode---the [uniform]
radial expansion and contraction of a spatially confined system. We study the
breathing mode across the transition from the ideal quantum to the classical
regime and confirm that it is not independent of the pair interaction strength
(coupling parameter). We present the results of time-dependent Hartree-Fock
simulations for 2 to 20 fermions with Coulomb interaction and show how the
quantum breathing mode depends on the particle number. We validate the accuracy
of our results, comparing them to exact Configuration Interaction results for
up to 8 particles
Hard Diffraction and Unitarity
A short survey of the role of unitarity for hard diffractive cross-sections
is givenComment: 4 pages, LaTeX, no figures, Talk at the International Workshop "
Diffraction 2000" (Cetraro, Italy, 2-7 September 2000
Localization of RNA transcription sites in insect oocytes using microinjections of 5-bromouridine 5'-triphosphate.
In the present study we used 5-bromouridine 5'-triphosphate (BrUTP) microinjections to localize the transcription sites in oocytes of insects with different types of the ovarium structure: panoistic, meroistic polytrophic, and meroistic telotrophic. We found that in an insect with panoistic ovaries (Acheta domesticus), oocyte nuclei maintain their transcription activity during the long period of oocyte growth. In insects with meroistic ovaries (Tenebrio molitor and Panorpa communis), early oocyte chromosomes were found to be transcriptionally active, and some transcription activity still persist while the karyosphere, a compact structure formed by all condensed oocyte chromosomes, begins to develop. At the latest stages of karyosphere development, no anti-Br-RNA signal was registered in the karyosphere
Effects of Frustrated Surface in Heisenberg Thin Films
We study by extensive Monte Carlo (MC) simulations and analytical Green
function (GF) method effects of frustrated surfaces on the properties of thin
films made of stacked triangular layers of atoms bearing Heisenberg spins with
an Ising-like interaction anisotropy. We suppose that the in-plane surface
interaction can be antiferromagnetic or ferromagnetic while all other
interactions are ferromagnetic. We show that the ground-state spin
configuration is non linear when is lower than a critical value .
The film surfaces are then frustrated. In the frustrated case, there are two
phase transitions related to disorderings of surface and interior layers. There
is a good agreement between MC and GF results. In addition, we show from MC
histogram calculation that the value of the ratio of critical exponents
of the observed transitions is deviated from the values of two and
three Ising universality classes. The origin of this deviation is discussed
with general physical arguments.Comment: 9 pages, 16 figure
Phase transition in the Higgs model of scalar dyons
In the present paper we investigate the phase transition
"Coulomb--confinement" in the Higgs model of abelian scalar dyons -- particles
having both, electric and magnetic , charges. It is shown that by dual
symmetry this theory is equivalent to scalar fields with the effective squared
electric charge e^{*2}=e^2+g^2. But the Dirac relation distinguishes the
electric and magnetic charges of dyons. The following phase transition
couplings are obtained in the one--loop approximation:
\alpha_{crit}=e^2_{crit}/4\pi\approx 0.19,
\tilde\alpha_{crit}=g^2_{crit}/4\pi\approx 1.29 and \alpha^*_{crit}\approx
1.48.Comment: 16 pages, 2 figure
Nonlinear Bogolyubov-Valatin transformations and quaternions
In introducing second quantization for fermions, Jordan and Wigner
(1927/1928) observed that the algebra of a single pair of fermion creation and
annihilation operators in quantum mechanics is closely related to the algebra
of quaternions H. For the first time, here we exploit this fact to study
nonlinear Bogolyubov-Valatin transformations (canonical transformations for
fermions) for a single fermionic mode. By means of these transformations, a
class of fermionic Hamiltonians in an external field is related to the standard
Fermi oscillator.Comment: 6 pages REVTEX (v3: two paragraphs appended, minor stylistic changes,
eq. (39) corrected, references [10]-[14], [36], [37], [41], [67]-[69] added;
v4: few extensions, references [62], [63] added, final version to be
published in J. Phys. A: Math. Gen.
RPA Green's Functions of the Anisotropic Heisenberg Model
We solve in random-phase approximation the anisotropic Heisenberg model,
including nearest and next-nearest neighbour interactions by calculating all
Green's functions and pair correlation functions in a cumulant decoupling
scheme. The general exposition is pedagogic in tone and is intended to be
accessible to any graduate student or physicist who is not an expert in the
field.Comment: 26 pages, 4 figure
Orbital order and ferrimagnetic properties of the new compound
By means of the LSDA+U method and the Green function method, we investigate
the electronic and magnetic properties of the new material of
SrCaReCuO. Our LSDA+U calculation shows that this system is
an insulator with a net magnetic moment of 1.01 /f.u., which is in
good agreement with the experiment. Magnetic moments are mainly located at Cu
atoms, and the magnetic moments of neighboring Cu sites align anti-parallel. It
is the non-magnetic Re atoms that induce an orbital order of electrons of
Cu atoms, which is responsible for the strong exchange interaction and the high
magnetic transition temperature. Based on the LSDA+U results, we introduce an
effective model for the spin degrees of freedom, and investigate the
finite-temperature properties by the Green function method. The obtained
results are consistent with the experimental results, indicating that the
spin-alternating Heisenberg model is suitable for this compound.Comment: 8 pages and 5 figur
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