2,451 research outputs found
A New Computing Laboratory to Evaluate and Test Hardware, Software and Systems: Intellectual Property Based Organizational Setting No. 1
The proliferation of minicomputers and the seductive nature of belief in hardware solutions to a complex problem, has led the authors to suggest the creating of a new computing laboratory (NCL). The laboratory would permit clients to seek help in the system design aspects of their problem and to test the proposed hardware/software/systems solution on a NCL workbench. The importance of a entrepreneurial management style for the enterprise is stressed
Dynamics of the Forest Sector: Problems and Policies
The dynamic behaviors of the forest sector are generated by the acting together of economic, ecological, social, and biological parts, characteristics and by geographical distribution such as of the forest industrial complexes, of the resources, and of the customers. These dynamics are influenced by and in turn are influencing factors such as wood availability, possible uses of wood, processing technologies, and economic activities. The first chapter of this paper deals with how to depict and how to evaluate such interrelationships and changes causing both problems and opportunities for the forest sector.
In the discussion of the uncertainties in the future of the forest sector and of possible actions, it is necessary to specify different possible future dynamic developments for the above mentioned factors. This is done in some scenarios in the second chapter. The impacts of these factors and their future dynamics impacts can be evaluated with respect to cost competitiveness and wood availability for the individual company as well as for the structural change of the whole sector, for example, with respect to the location of the forest industry and the characteristics and distribution of the forest resources.
A set of scenarios as a base for discussions with representatives of the sector can serve to find out the desirability of those developments and to help specify actions to change the undesired developments. At the end of the paper some actions are listed to deal with poor cost competitiveness and shortage of wood
Tunneling in a cavity
The mechanism of coherent destruction of tunneling found by Grossmann et al.
[Phys. Rev. Lett. 67, 516 (1991)] is studied from the viewpoint of quantum
optics by considering the photon statistics of a single mode cavity field which
is strongly coupled to a two-level tunneling system (TS). As a function of the
interaction time between TS and cavity the photon statistics displays the
tunneling dynamics. In the semi-classical limit of high photon occupation
number , coherent destruction of tunneling is exhibited in a slowing down of
an amplitude modulation for certain parameter ratios of the field. The
phenomenon is explained as arising from interference between displaced number
states in phase space which survives the large limit due to identical
scaling between orbit width and displacement.Comment: 4 pages Revtex, 2 PS-figures, appears in The Physical Review
Classification of phase transitions of finite Bose-Einstein condensates in power law traps by Fisher zeros
We present a detailed description of a classification scheme for phase
transitions in finite systems based on the distribution of Fisher zeros of the
canonical partition function in the complex temperature plane. We apply this
scheme to finite Bose-systems in power law traps within a semi-analytic
approach with a continuous one-particle density of states for different values of and to a three dimensional harmonically
confined ideal Bose-gas with discrete energy levels. Our results indicate that
the order of the Bose-Einstein condensation phase transition sensitively
depends on the confining potential.Comment: 7 pages, 9 eps-figures, For recent information on physics of small
systems see "http://www.smallsystems.de
Methods for Analyzing Multifaceted Problems Applied to Forest Die-Off
Systems methods, applied inappropriately, have resulted in frequent failures. Moreover. complexity, variety, and widespread partial indeterminism of ecosystems and systems inhabited by humans, need to be addressed with tools that can achieve both a holistic and at the same time detailed and intelligible - that is parsimonious - treatment and that can combine a systematic approach with the necessity to allow for erratic behavior.
A method of scale for overview and a hierarchical approach are used to achieve the above stated objectives. A very effective new method is reported, where a dynamic model is used to generate time series of maps on pollution and forest damage
Problems and Prospects of Developing Countries in Forestry and Wood-Processing Industries. Report from an IIASA/UNIDO Workshop
This paper reports in a summary form on the discussions during a workshop organized by IIASA and UNIDO in January 1983. The workshop treated problems and prospects relating to developing countries in the sectors of forestry and wood-processing industries. The results of the workshop will be used in IIASA's project "Structural Change in the Forest Sector" and in UNIDO's work on its world-wide study on wood and wood processing industries. The invited participants came mainly from developing countries and from the two institutions mentioned.
The issues raised during the meeting are summarized systematically in Figure 2. The main concern of the meeting related to the sustainability of the wood resources, over-exploitation and depletion and suitable counter-balancing measures, such as afforestation, reforestation, and more efficient use of available resources. Trade patterns were also discussed. A global trade model for forestry industry products was presented
Modified semiclassical approximation for trapped Bose gases
A generalization of the semiclassical approximation is suggested allowing for
an essential extension of its region of applicability. In particular, it
becomes possible to describe Bose-Einstein condensation of a trapped gas in
low-dimensional traps and in traps of low confining dimensions, for which the
standard semiclassical approximation is not applicable. The results of the
modified approach are shown to coincide with purely quantum-mechanical
calculations for harmonic traps, including the one-dimensional harmonic trap.
The advantage of the semiclassical approximation is in its simplicity and
generality. Power-law potentials of arbitrary powers are considered. Effective
thermodynamic limit is defined for any confining dimension. The behaviour of
the specific heat, isothermal compressibility, and density fluctuations is
analyzed, with an emphasis on low confining dimensions, where the usual
semiclassical method fails. The peculiarities of the thermodynamic
characteristics in the effective thermodynamic limit are discussed.Comment: Revtex file, 13 page
Localization and entanglement of two interacting electrons in a quantum-dot molecule
The localization of two interacting electrons in a coupled-quantum-dots
semiconductor structure is demonstrated through numerical calculations of the
time evolution of the two-electron wave function including the Coulomb
interaction between the electrons. The transition from the ground state to a
localized state is induced by an external, time-dependent, uniform electric
field. It is found that while an appropriate constant field can localize both
electrons in one of the wells, oscillatory fields can induce roughly equal
probabilities for both electrons to be localized in either well, generating an
interesting type of localized and entangled state. We also show that shifting
the field suddenly to an appropriate constant value can maintain in time both
types of localization.Comment: 4 pages, 4 figure
Universality in fully developed turbulence
We extend the numerical simulations of She et al. [Phys.\ Rev.\ Lett.\ 70,
3251 (1993)] of highly turbulent flow with Taylor-Reynolds number
up to , employing a reduced wave
vector set method (introduced earlier) to approximately solve the Navier-Stokes
equation. First, also for these extremely high Reynolds numbers ,
the energy spectra as well as the higher moments -- when scaled by the spectral
intensity at the wave number of peak dissipation -- can be described by
{\it one universal} function of for all . Second, the ISR
scaling exponents of this universal function are in agreement with
the 1941 Kolmogorov theory (the better, the large is), as is the
dependence of . Only around viscous damping leads to
slight energy pileup in the spectra, as in the experimental data (bottleneck
phenomenon).Comment: 14 pages, Latex, 5 figures (on request), 3 tables, submitted to Phys.
Rev.
Quantum Kinetic Theory III: Simulation of the Quantum Boltzmann Master Equation
We present results of simulations of a em quantum Boltzmann master equation
(QBME) describing the kinetics of a dilute Bose gas confined in a trapping
potential in the regime of Bose condensation. The QBME is the simplest version
of a quantum kinetic master equations derived in previous work. We consider two
cases of trapping potentials: a 3D square well potential with periodic boundary
conditions, and an isotropic harmonic oscillator. We discuss the stationary
solutions and relaxation to equilibrium. In particular, we calculate particle
distribution functions, fluctuations in the occupation numbers, the time
between collisions, and the mean occupation numbers of the one-particle states
in the regime of onset of Bose condensation.Comment: 12 pages, 15 figure
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