583 research outputs found
Optische propaganda als inlichtende en opvoedende factor
‘[…] meer en meer krijgt optische propaganda haar plaats in het wekken van belangstelling bij groote groepen van het lezende publiek. Als inlichtende en opvoedende factor wordt het
beeld ook door de groote technische vervolmaking steeds belangrijker in propagandistisch oogpunt.’
Met de bovenstaande opmerking legde de Nederlandse regering in ballingschap in Londen verantwoording af voor de kosten van een fotografische dienst. Het bekendste middel om de Nederlandse bevolking te steunen vanuit Londen was Radio Oranje.
Echter, de Nederlandse regering was zich ook al bewust van de mogelijkheden van fotografie als propagandamiddel. Vanuit Londen werd al snel nagedacht hoe voorlichting kon worden ingezet als Nederland zou zijn bevrijd. Hierbij werd ook fotografie
gebruikt. Met dit doel werd de afdeling Anefo opgericht: het Algemeen Nederlandsch Fotobureau. Anefo is bij velen bekend als fotopersbureau dat in de jaren zeventig en tachtig in Nederland opereerde. Het bouwde een geweldig archief op dat een bijzonder tijdsbeeld van ons land geeft. Minder bekend is dat Anefo werd opgericht als propaganda-instrument van de
Nederlandse regering. Het ressorteerde in die hoedanigheid onder het Militair Gezag. Na de oorlog volgden enkele mislukte overnamepogingen. In het kader hiervan werden gesprekken
gevoerd met onder meer ANP en Uitgeverij Spaarnestad. Per 17 januari 1948 werd Anefo een zelfstandig commercieel bedrijf. In dit artikel worden de oprichting en beginjaren van Anefo besproken en aangetoond hoe fotografie als propagandamiddel werd ingezet
Hubbard model versus t-J model: The one-particle spectrum
The origin of the apparent discrepancies between the one-particle spectra of
the Hubbard and t-J models is revealed: Wavefunction corrections, in addition
to the three-site terms, should supplement the bare t-J. In this way a
quantitative agreement between the two models is obtained, even for the
intermediate- values appropriate for the high-Tc cuprate superconductors.
Numerical results for clusters of up to 20 sites are presented. The momentum
dependence of the observed intensities in the photoemission spectra of
Sr2CuO2Cl2 are well described by this complete strong-coupling approach.Comment: 4 two-column RevTeX pages, including 4 Postscript figures. Uses epsf.
Accepted for publication in Physical Review B, Rapid Communicatio
Dynamical density-density correlations in one-dimensional Mott insulators
The dynamical density-density correlation function is calculated for the
one-dimensional, half-filled Hubbard model extended with nearest neighbor
repulsion using the Lanczos algorithm for finite size systems and analytically
for large on site repulsion compared to hopping amplitudes. At the zone
boundary an excitonic feature exists for any finite nearest neighbor repulsion
and exhausts most of the spectral weight, even for parameters where no exciton
is visible at zero momentum.Comment: 5 pages, REVTeX, epsf, 3 postscript figure
Spectral function of the 1D Hubbard model in the limit
We show that the one-particle spectral functions of the one-dimensional
Hubbard model diverge at the Fermi energy like
in the limit. The Luttinger liquid behaviour
, where as ,
should be limited to (for large but
finite), which shrinks to a single point, ,in that limit.
The consequences for the observation of the Luttinger liquid behaviour in
photoemission and inverse photoemission experiments are discussed.Comment: 4 pages, RevTeX, 2 figures on reques
Anisotropic Spin Hamiltonians due to Spin-Orbit and Coulomb Exchange Interactions
This paper contains the details of Phys. Rev. Lett. 73, 2919 (1994) and, to a
lesser extent, Phys. Rev. Lett. 72, 3710 (1994). We treat a Hubbard model which
includes all the 3d states of the Cu ions and the 2p states of the O ions. We
also include spin-orbit interactions, hopping between ground and excited
crystal field states of the Cu ions, and rather general Coulomb interactions.
Our analytic results for the spin Hamiltonian, H, are corroborated by numerical
evaluations of the energy splitting of the ground manifold for two holes on
either a pair of Cu ions or a Cu-O-Cu complex. In the tetragonal symmetry case
and for the model considered, we prove that H is rotationally invariant in the
absence of Coulomb exchange. When Coulomb exchange is present, each bond
Hamiltonian has full biaxial anisotropy, as expected for this symmetry. For
lower symmetry situations, the single bond spin Hamiltonian is anisotropic at
order t**6 for constant U and at order t**2 for nonconstant U. (Constant U
means that the Coulomb interaction between orbitals does not depend on which
orbitals are involved.)Comment: 50 pages, ILATEX Version 2.09 <13 Jun 1989
Pairing Correlations on t-U-J Ladders
Pairing correlations on generalized t-U-J two-leg ladders are reported. We
find that the pairing correlations on the usual t-U Hubbard ladder are
significantly enhanced by the addition of a nearest-neighbor exchange
interaction J. Likewise, these correlations are also enhanced for the t-J model
when the onsite Coulomb interaction is reduced from infinity. Moreover, the
pairing correlations are larger on a t-U-J ladder than on a t-Jeff ladder in
which Jeff has been adjusted so that the two models have the same spin gap at
half-filling. This enhancement of the pairing correlations is associated with
an increase in the pair-binding energy and the pair mobility in the t-U-J model
and point to the importance of the charge transfer nature of the cuprate
systems
Consistent low-energy reduction of the three-band model for copper oxides with O-O hopping to the effective t-J model
A full three-band model for the CuO plane with inclusion of all
essential interactions - Cu-O and O-O hopping, repulsion at the copper and
oxygen and between them - is considered. A general procedure of the low-energy
reduction of the primary Hamiltonian to the Hamiltonian of the generalized
-- model is developed. An important role of the direct O-O hopping is
discussed. Parameters of the effective low-energy model (the hopping integral,
the band position and the superexchange constant are calculated. An
analysis of the obtained data shows that the experimental value of fixes
the charge transfer energy in a narrow
region of energies.Comment: 32 pp. (LATEX), two figures (PostScript) appende
Theory of the optical conductivity of (TMTSF)PF in the mid-infrared range
We propose an explanation of the mid-infrared peak observed in the optical
conductivity of the Bechgaard salt (TMTSF)PF in terms of electronic
excitations. It is based on a numerical calculation of the conductivity of the
quarter-filled, dimerized Hubbard model. The main result is that, even for
intermediate values of for which the charge gap is known to be very
small, the first peak, and at the same time the main structure, of the optical
conductivity is at an energy of the order of the dimerization gap, like in the
infinite case. This surprising effect is a consequence of the optical
selection rules.Comment: 10 pages, 9 uuencoded figure
Range of the t--J model parameters for CuO plane: experimental data constraints
The t-J model effective hopping integral is determined from the three-band
Hubbard model for the charge carriers in CuO plane. For this purpose the
values of the superexchange constant and the charge-transfer gap
are calculated in the framework of the three-band model. Fitting values of
and to the experimental data allows to narrow the uncertainty region
of the three-band model parameters. As a result, the ratio of the t-J
model is fixed in the range for holes and for
electrons. Formation of the Frenkel exciton is justified and the main features
of the charge-transfer spectrum are correctly described in the framework of
this approach.Comment: 20pp., REVTEX 3.0, (11 figures), report 66
Optical properties of an effective one-band Hubbard model for the cuprates
We study the Cu and O spectral density of states and the optical conductivity
of CuO_2 planes using an effective generalized one-band Hubbard model derived
from the extended three-band Hubbard model. We solve exactly a square cluster
of 10 unit cells and average the results over all possible boundary conditions,
what leads to smooth functions of frequency. Upon doping, the Fermi energy
jumps to Zhang-Rice states which are connected to the rest of the valence band
(in contrast to an isolated new band in the middle of the gap). The transfer of
spectral weight depends on the parameters of the original three-band model not
only through the one-band effective parameters but also through the relevant
matrix elements. We discuss the evolution of the gap upon doping. The optical
conductivity of the doped system shows a mid-infrared peak due to intraband
transitions, a pseudogap and a high frequency part related to interband
transitions. Its shape and integrated weight up to a given frequency (including
the Drude weight) agree qualitatively with experiments in the cuprates for low
to moderate doping levels, but significant deviations exist for doping .Comment: 11 pages (tex), 14 figures (ps
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