75 research outputs found
Integration of Slovenia into EU and global industrial networks: review of existing evidence
Slovenia is a small economy, which is somehow "condemned" to be open and highly internationalised. Relatively high shares of exports and imports in GDP indicate that the economy is highly dependent on foreign markets and inputs. This orientation is additionally strengthened by the final stage of the transition process and accession to the EU, both meaning definite opening of the economy and its integration into EU and global economy. Internationalisation of operations is, therefore, increasingly becoming a critical factor for creating and stimulating a competitive corporate sector in Slovenia. To strengthen the internationalisation processes, the policy of internationalisation should be based on the following: (i) lifting barriers to internationalisation; (ii) taking the actual needs of companies as a starting point; (iii) flexibility, transparency and the long-term perspective; (iv) adaptability and a re-examination of policy; and (v) a holistic concept of internationalisation. Increasingly important aspects of internationalisation are inward and outward FDI. The paper review the existing evidence on the internationalisation of Slovenian economy in all the various modes. The paper is composed of three parts. In the first part the scale and dynamics of industry integration of Slovenia into EU/global industrial networks by the way of foreign trade, outward and inward processing trade (OPT) and subcontracting and FDI is given. The second part analyses the integration of Slovenian car components industry in international industrial networks, and the third part concentrates on the motivation and strategies of foreign investors in Slovenia and Slovenian investors abroad
Raman Response in Doped Antiferromagnets
The resonant part of the electronic Raman scattering response is
calculated within the model on a planar lattice as a function of
temperature and hole doping, using a finite-temperature diagonalization method
for small systems. Results, directly applicable to experiments on cuprates,
reveal on doping a very pronounced increase of the width of the two-magnon
Raman peak, accompanied by a decrease of the total intensity. At the same time
the peak position does not shift substantially in the underdoped regime.Comment: 11 pages revtex, 3 postscript figures. Minor corrections and changes
from previous version, to be published in Phys. Rev.
Pseudo-gap behavior in dynamical properties of high-Tc cuprates
Dynamical properties of 2D antiferromagnets with hole doping are investigated
to see the effects of short range local magnetic order on the temperature
dependence of the dynamical magnetic susceptibility. We show the pseudo-gap
like behavior of the temperature dependence of the NMR relaxation rate. We also
discuss implications of the results in relations to the observed spin gap like
behavior of low-doped copper oxide high- superconductors.Comment: 3 pages, Revtex, with 2 eps figures, to appear in J.Phys.Soc.Jpn.
Vol.67 No.
Application of the finite-temperature Lanczos method for the evaluation of magnetocaloric properties of large magnetic molecules
We discuss the magnetocaloric properties of gadolinium containing magnetic
molecules which potentially could be used for sub-Kelvin cooling. We show that
a degeneracy of a singlet ground state could be advantageous in order to
support adiabatic processes to low temperatures and simultaneously minimize
disturbing dipolar interactions. Since the Hilbert spaces of such spin systems
assume very large dimensions we evaluate the necessary thermodynamic
observables by means of the Finite-Temperature Lanczos Method.Comment: 7 pages, 10 figures, invited for the special issue of EPJB on "New
trends in magnetism and magnetic materials
Cluster Perturbation Theory for Hubbard models
Cluster perturbation theory is a technique for calculating the spectral
weight of Hubbard models of strongly correlated electrons, which combines exact
diagonalizations on small clusters with strong-coupling perturbation theory at
leading order. It is exact in both the strong- and weak-coupling limits and
provides a good approximation to the spectral function at any wavevector.
Following the paper by S\'en\'echal et al. (Phys. Rev. Lett. {\bf 84}, 522
(2000)), we provide a more complete description and derivation of the method.
We illustrate some of its capabilities, in particular regarding the effect of
doping, the calculation of ground state energy and double occupancy, the
disappearance of the Fermi surface in the Hubbard model, and so on. The
method is applicable to any model with on-site repulsion only.Comment: 11 pages, 10 figures (RevTeX 4
Specific Heat of the 2D Hubbard Model
Quantum Monte Carlo results for the specific heat c of the two dimensional
Hubbard model are presented. At half-filling it was observed that
at very low temperatures. Two distinct features were also identified: a low
temperature peak related to the spin degrees of freedom and a higher
temperature broad peak related to the charge degrees of freedom. Away from
half-filling the spin induced feature slowly disappears as a function of hole
doping while the charge feature moves to lower temperature. A comparison with
experimental results for the high temperature cuprates is discussed.Comment: 6 pages, RevTex, 11 figures embedded in the text, Submitted to Phys.
Rev.
Anomalous low doping phase of the Hubbard model
We present results of a systematic Quantum-Monte-Carlo study for the
single-band Hubbard model. Thereby we evaluated single-particle spectra (PES &
IPES), two-particle spectra (spin & density correlation functions), and the
dynamical correlation function of suitably defined diagnostic operators, all as
a function of temperature and hole doping. The results allow to identify
different physical regimes. Near half-filling we find an anomalous `Hubbard-I
phase', where the band structure is, up to some minor modifications, consistent
with the Hubbard-I predictions. At lower temperatures, where the spin response
becomes sharp, additional dispersionless `bands' emerge due to the dressing of
electrons/holes with spin excitatons. We present a simple phenomenological fit
which reproduces the band structure of the insulator quantitatively. The Fermi
surface volume in the low doping phase, as derived from the single-particle
spectral function, is not consistent with the Luttinger theorem, but
qualitatively in agreement with the predictions of the Hubbard-I approximation.
The anomalous phase extends up to a hole concentration of 15%, i.e. the
underdoped region in the phase diagram of high-T_c superconductors. We also
investigate the nature of the magnetic ordering transition in the single
particle spectra. We show that the transition to an SDW-like band structure is
not accomplished by the formation of any resolvable `precursor bands', but
rather by a (spectroscopically invisible) band of spin 3/2 quasiparticles. We
discuss implications for the `remnant Fermi surface' in insulating cuprate
compounds and the shadow bands in the doped materials.Comment: RevTex-file, 20 PRB pages, 16 figures included partially as gif. A
full ps-version including ps-figures can be found at
http://theorie.physik.uni-wuerzburg.de/~eder/condmat.ps.gz Hardcopies of
figures (or the entire manuscript) can also be obtained by e-mail request to:
[email protected]
Spin 1/2 Magnetic Impurity in a 2D Magnetic System Close to Quantum Critical Point
We consider a magnetic impurity in a spin liquid state of a magnetic system
which is close to the quantum phase transition to the magnetically ordered
state. There is similarity between this problem and the Kondo problem. We
derive the impurity Green's function, consider renormalizations of the magnetic
moments of the impurity, calculate critical indexes for the magnetic
susceptibilities and finally consider specific heat and magnetic interaction of
two impurities.Comment: 9 pages, 9 figure
The pseudogap in underdoped high Tc superconductors in the framework of the Boson Fermion model
The question of whether the pseudogap in high cuprates is related to
super conducting precursor effects or to the existence of extrinsic bosonic
massive excitations is investigated on the basis of the Boson-Fermion model.
The characteristic three peak structure of the electronic spectral function and
the temperature dependent Fermi vector derived here are signatures for a two
component scenario which can be tested by ARPES and BIS experiments.Comment: revtex version with 3 eps figures. Revised version to appear in Phys.
Rev. B. 4 c programs adde
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