402 research outputs found
Management and Organization in the work of Michel Houellebecq
Research in management and organization may only gain by being inspired from arts, culture and humanities in order to rethink practices but also to nourish its own perspectives. Life in organizations is artificially separate from ordinary life: all of mundane objects are thus conducive to astonishment, inspiration, and even problematization. The unplugged subsection “voices” gives the opportunity to academics and non-academics to deliver an interpretation about an object from the cultural or artistic world. Interpreted objects are or not directly related to organizational life, resonate or not with the moment, but share some intriguing features. These interpretations suggest a patchwork of variations on the same object
Transport and magnetic properties of GdBaCo_{2}O_{5+x} single crystals: A cobalt oxide with square-lattice CoO_2 planes over a wide range of electron and hole doping
Single crystals of the layered perovskite GdBaCo_{2}O_{5+x} (GBCO) have been
grown by the floating-zone method, and their transport, magnetic, and
structural properties have been studied in detail over a wide range of oxygen
contents. The obtained data are used to establish a rich phase diagram centered
at the "parent'' compound GdBaCo_{2}O_{5.5} -- an insulator with Co ions in the
3+ state. An attractive feature of GBCO is that it allows a precise and
continuous doping of CoO_{2} planes with either electrons or holes, spanning a
wide range from the charge-ordered insulator at 50% electron doping (x=0) to
the undoped band insulator (x=0.5), and further towards the heavily hole-doped
metallic state. This continuous doping is clearly manifested in the behavior of
thermoelectric power which exhibits a spectacular divergence with approaching
x=0.5, where it reaches large absolute values and abruptly changes its sign. At
low temperatures, the homogeneous distribution of doped carriers in GBCO
becomes unstable, and both the magnetic and transport properties point to an
intriguing nanoscopic phase separation. We also find that throughout the
composition range the magnetic behavior in GBCO is governed by a delicate
balance between ferromagnetic (FM) and antiferromagnetic (AF) interactions,
which can be easily affected by temperature, doping, or magnetic field,
bringing about FM-AF transitions and a giant magnetoresistance (MR) phenomenon.
An exceptionally strong uniaxial anisotropy of the Co spins, which dramatically
simplifies the possible spin arrangements, together with the possibility of
continuous ambipolar doping turn GBCO into a model system for studying the
competing magnetic interactions, nanoscopic phase separation and accompanying
magnetoresistance phenomena.Comment: 31 pages, 32 figures, submitted to Phys. Rev.
Landau level spectroscopy of surface states in the topological insulator BiSb via magneto-optics
We have performed broad-band zero-field and magneto-infrared spectroscopy of
the three dimensional topological insulator BiSb. The
zero-field results allow us to measure the value of the direct band gap between
the conducting and valence bands. Under applied field in the
Faraday geometry (\emph{k} \emph{H} C1), we measured the presence of
a multitude of Landau level (LL) transitions, all with frequency dependence
. We discuss the ramification of this observation for
the surface and bulk properties of topological insulators.Comment: 7 pages, 8 figures, March Meeting 2011 Abstract: J35.0000
Band structure engineering in (Bi1-xSbx)2Te3 ternary topological insulators
Three-dimensional (3D) topological insulators (TI) are novel quantum
materials with insulating bulk and topologically protected metallic surfaces
with Dirac-like band structure. The spin-helical Dirac surface states are
expected to host exotic topological quantum effects and find applications in
spintronics and quantum computation. The experimental realization of these
ideas requires fabrication of versatile devices based on bulk-insulating TIs
with tunable surface states. The main challenge facing the current TI materials
exemplified by Bi2Se3 and Bi2Te3 is the significant bulk conduction, which
remains unsolved despite extensive efforts involving nanostructuring, chemical
doping and electrical gating. Here we report a novel approach for engineering
the band structure of TIs by molecular beam epitaxy (MBE) growth of
(Bi1-xSbx)2Te3 ternary compounds. Angle-resolved photoemission spectroscopy
(ARPES) and transport measurements show that the topological surface states
exist over the entire composition range of (Bi1-xSbx)2Te3 (x = 0 to 1),
indicating the robustness of bulk Z2 topology. Most remarkably, the systematic
band engineering leads to ideal TIs with truly insulating bulk and tunable
surface state across the Dirac point that behave like one quarter of graphene.
This work demonstrates a new route to achieving intrinsic quantum transport of
the topological surface states and designing conceptually new TI devices with
well-established semiconductor technology.Comment: Minor changes in title, text and figures. Supplementary information
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Ultra-low carrier concentration and surface dominant transport in Sb-doped Bi2Se3 topological insulator nanoribbons
A topological insulator is a new state of matter, possessing gapless
spin-locking surface states across the bulk band gap which has created new
opportunities from novel electronics to energy conversion. However, the large
concentration of bulk residual carriers has been a major challenge for
revealing the property of the topological surface state via electron transport
measurement. Here we report surface state dominated transport in Sb-doped
Bi2Se3 nanoribbons with very low bulk electron concentrations. In the
nanoribbons with sub-10nm thickness protected by a ZnO layer, we demonstrate
complete control of their top and bottom surfaces near the Dirac point,
achieving the lowest carrier concentration of 2x10^11/cm2 reported in
three-dimensional (3D) topological insulators. The Sb-doped Bi2Se3
nanostructures provide an attractive materials platform to study fundamental
physics in topological insulators, as well as future applications.Comment: 5 pages, 4 figures, 1 tabl
Quantum magneto-optics of graphite family
The optical conductivity of graphene, bilayer graphene, and graphite in
quantizing magnetic fields is studied. Both dynamical conductivities,
longitudinal and Hall's, are analytically evaluated. The conductivity peaks are
explained in terms of electron transitions. We have shown that trigonal warping
can be considered within the perturbation theory for strong magnetic fields
larger than 1 T and in the semiclassical approach for weak fields when the
Fermi energy is much larger than the cyclotron frequency. The main optical
transitions obey the selection rule with \Deltan = 1 for the Landau number n,
however the \Deltan = 2 transitions due to the trigonal warping are also
possible. The Faraday/Kerr rotation and light transmission/reflection in the
quantizing magnetic fields are calculated. Parameters of the
Slonczewski-Weiss-McClure model are used in the fit taking into account the
previous dHvA measurements and correcting some of them for the case of strong
magnetic fields.Comment: 28 pages, 12 figures. arXiv admin note: text overlap with
arXiv:1106.340
Synchronization of multi-phase oscillators: An Axelrod-inspired model
Inspired by Axelrod's model of culture dissemination, we introduce and
analyze a model for a population of coupled oscillators where different levels
of synchronization can be assimilated to different degrees of cultural
organization. The state of each oscillator is represented by a set of phases,
and the interaction --which occurs between homologous phases-- is weighted by a
decreasing function of the distance between individual states. Both ordered
arrays and random networks are considered. We find that the transition between
synchronization and incoherent behaviour is mediated by a clustering regime
with rich organizational structure, where some of the phases of a given
oscillator can be synchronized to a certain cluster, while its other phases are
synchronized to different clusters.Comment: 6 pages, 5 figure
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