459 research outputs found
Trust in the US-EU fruit and vegetable chain: Do US exporters understand EU importers?
Research on organizational and inter organizational trust has become an important field in management and marketing literature, as it is perceived as a pivotal aspect of business transactions. However, clarifications are still needed on the issue of whom we trust; is the person whom we are trading with trusted, or the organization, or just the productâquality? Not only has this question not been answered within this field of research, neither have cultural differences have been described to any great extent. Additionally, if the perceived factors important to establish trusting relationships may or may not be the same on the buyers and the sellers side in international business transaction in food chains. The primary objective of this research study therefore is to identify how well US exporters understand the elements of trust that establish strong relationships with EU importers. The Analytical Hierarchy Process was used to evaluate the importance of different trust elements in interviews conducted with US exporters and EU importers of fruits and vegetables. Results are compared, providing both a picture of the important facets of trust, as well as whether the partners understand the perspectives of the other partner
SB82-14/15: Resolution Regarding the Montana University System Tuition Freeze
SB82-14/15: Resolution Regarding the Montana University System Tuition Freeze. This resolution failed 1Y-14N on a roll call vote during the April 15, 2015 meeting of the Associated Students of the University of Montana (ASUM)
Hubble Space Telescope imaging of the compact elliptical galaxy M32 reveals a dearth of carbon stars
We present new {\em Hubble Space Telescope} WFC3/IR medium-band photometry of
the compact elliptical galaxy M32, chemically resolving its thermally pulsating
asymptotic giant branch stars. We find 2829 M-type stars and 57 C stars. The
carbon stars are likely contaminants from M31. If carbon stars are present in
M32 they are so in very low numbers. The uncorrected C/M ratio is 0.020
0.003; this drops to less than 0.007 after taking into account contamination
from M31. As the mean metallicity of M32 is just below solar, this low ratio of
C to M stars is unlikely due to a metallicity ceiling for the formation of
carbon stars. Instead, the age of the AGB population is likely to be the
primary factor. The ratio of AGB to RGB stars in M32 is similar to that of the
inner disc of M31 which contain stars that formed 1.5--4 Gyr ago. If the M32
population is at the older end of this age then its lack of C-stars may be
consistent with a narrow mass range for carbon star formation predicted by some
stellar evolution models. Applying our chemical classifications to the dusty
variable stars identified with {\em Spitzer}, we find that the x-AGB candidates
identified with {\em Spitzer} are predominately M-type stars. This
substantially increases the lower limit to the cumulative dust-production rate
in M32 to 1.97 .Comment: 10 pages, 7 figures, submitted MNRAS 7/12/2
Detection of a Far-Infrared Bow-Shock Nebula Around R Hya: the First MIRIAD Results
We present the first results of the MIRIAD (MIPS [Multiband Imaging
Photometer for Spitzer] Infra-Red Imaging of AGB [asymptotic giant branch]
Dustshells) project using the Spitzer Space Telescope. The primary aim of the
project is to probe the material distribution in the extended circumstellar
envelopes (CSE) of evolved stars and recover the fossil record of their mass
loss history. Hence, we must map the whole of the CSEs plus the surrounding sky
for background subtraction, while avoiding the central star that is brighter
than the detector saturation limit. With our unique mapping strategy, we have
achieved better than one MJy/sr sensitivity in three hours of integration and
successfully detected a faint (< 5 MJy/sr), extended (~400 arcsec) far-infrared
nebula around the AGB star R Hya. Based on the parabolic structure of the
nebula, the direction of the space motion of the star with respect to the
nebula shape, and the presence of extended H alpha emission co-spatial to the
nebula, we suggest that the detected far-IR nebula is due to a bow shock at the
interface of the interstellar medium and the AGB wind of this moving star. This
is the first detection of the stellar-wind bow-shock interaction for an AGB
star and exemplifies the potential of Spitzer as a tool to examine the detailed
structure of extended far-IR nebulae around bright central sources. \Comment: 10 pages, 2 figures, accepted for publication in ApJ
Greybody Factors for Brane Scalar Fields in a Rotating Black-Hole Background
We study the evaporation of (4+n)-dimensional rotating black holes into
scalar degrees of freedom on the brane. We calculate the corresponding
absorption probabilities and cross-sections obtaining analytic solutions in the
low-energy regime, and compare the derived analytic expressions to numerical
results, with very good agreement. We then consider the high-energy regime,
construct an analytic high-energy solution to the scalar-field equation by
employing a new method, and calculate the absorption probability and
cross-section for this energy regime, finding again a very good agreement with
the exact numerical results. We also determine the high-energy asymptotic value
of the total cross-section, and compare it to the analytic results derived from
the application of the geometrical optics limit.Comment: Latex file, 30 pages, 5 figures, typos corrected, version published
in Phys. Rev.
Time--delay autosynchronization of the spatio-temporal dynamics in resonant tunneling diodes
The double barrier resonant tunneling diode exhibits complex spatio-temporal
patterns including low-dimensional chaos when operated in an active external
circuit. We demonstrate how autosynchronization by time--delayed feedback
control can be used to select and stabilize specific current density patterns
in a noninvasive way. We compare the efficiency of different control schemes
involving feedback in either local spatial or global degrees of freedom. The
numerically obtained Floquet exponents are explained by analytical results from
linear stability analysis.Comment: 10 pages, 16 figure
Bacterial contamination of anesthesia machinesâ internal breathing-circuit-systems
Background: Bacterial contamination of anesthesia breathing machines and their potential hazard for pulmonary infection and cross-infection among anesthetized patients has been an infection control issue since the 1950s. Disposable equipment and bacterial filters have been introduced to minimize this risk. However, the machinesâ internal breathing-circuit-system has been considered to be free of micro-organisms without providing adequate data supporting this view. The aim of the study was to investigate if any micro-organisms can be yielded from used internal machinesâ breathing-circuit-system. Based on such results objective reprocessing intervals could be defined
Seasonal variation of ozone deposition to a tropical rain forest in southwest Amazonia
International audienceWithin the project EUropean Studies on Trace gases and Atmospheric CHemistry as a contribution to Large-scale Biosphere-atmosphere experiment in Amazonia (LBA-EUSTACH), we performed tower-based eddy covariance measurements of O3 flux above an Amazonian primary rain forest at the end of the wet and dry season. Ozone deposition revealed distinct seasonal differences in the magnitude and diel variation. In the wet season, the rain forest was an effective O3 sink with a mean daytime (midday) maximum deposition velocity of 2.3 cm s?1, and a corresponding O3 flux of ?11 nmol m?2 s?1. At the end of the dry season, the ozone mixing ratio was about four times higher (up to maximum values of 80 ppb) than in the wet season, as a consequence of strong regional biomass burning activity. However, the typical maximum daytime deposition flux was very similar to the wet season. This results from a strong limitation of daytime O3 deposition due to reduced plant stomatal aperture as a response to large values of the specific humidity deficit. As a result, the average midday deposition velocity in the dry burning season was only 0.5 cm s?1. The large diel ozone variation caused large canopy storage effects that masked the true diel variation of ozone deposition mechanisms in the measured eddy covariance flux, and for which corrections had to be made. In general, stomatal aperture was sufficient to explain the largest part of daytime ozone deposition. However, during nighttime, chemical reaction with nitrogen monoxide (NO) was found to contribute substantially to the O3 sink in the rain forest canopy. Further contributions were from non-stomatal plant uptake and other processes that could not be clearly identified. Measurements, made simultaneously on a 22 years old cattle pasture enabled the spatially and temporally direct comparison of O3 dry deposition values from this site with typical vegetation cover of deforested land in southwest Amazonia to the results from the primary rain forest. The mean ozone deposition to the pasture was found to be systematically lower than that to the forest by 30% in the wet and 18% in the dry season
Finite nuclear size and Lamb shift of p-wave atomic states
We consider corrections to the Lamb shift of p-wave atomic states due to the
finite nuclear size (FNS). In other words, these are radiative corrections to
the atomic isotop shift related to FNS. It is shown that the structure of the
corrections is qualitatively different from that for s-wave states. The
perturbation theory expansion for the relative correction for a -state
starts from -term, while for -states it starts
from term. Here is the fine structure constant and is
the nuclear charge. In the present work we calculate the -terms for
-states, the result for -state reads
. Even more interesting are
-states. In this case the ``correction'' is by several orders of
magnitude larger than the ``leading'' FNS shift.Comment: 4 pages, 2 figure
The ionized and hot gas in M17 SW: SOFIA/GREAT THz observations of [C II] and 12CO J=13-12
With new THz maps that cover an area of ~3.3x2.1 pc^2 we probe the spatial
distribution and association of the ionized, neutral and molecular gas
components in the M17 SW nebula. We used the dual band receiver GREAT on board
the SOFIA airborne telescope to obtain a 5'.7x3'.7 map of the 12CO J=13-12
transition and the [C II] 158 um fine-structure line in M17 SW and compare the
spectroscopically resolved maps with corresponding ground-based data for low-
and mid-J CO and [C I] emission. For the first time SOFIA/GREAT allow us to
compare velocity-resolved [C II] emission maps with molecular tracers. We see a
large part of the [C II] emission, both spatially and in velocity, that is
completely non-associated with the other tracers of photon-dominated regions
(PDR). Only particular narrow channel maps of the velocity-resolved [C II]
spectra show a correlation between the different gas components, which is not
seen at all in the integrated intensity maps. These show different morphology
in all lines but give hardly any information on the origin of the emission. The
[C II] 158 um emission extends for more than 2 pc into the M17 SW molecular
cloud and its line profile covers a broader velocity range than the 12CO
J=13-12 and [C I] emissions, which we interpret as several clumps and layers of
ionized carbon gas within the telescope beam. The high-J CO emission emerges
from a dense region between the ionized and neutral carbon emissions,
indicating the presence of high-density clumps that allow the fast formation of
hot CO in the irradiated complex structure of M17 SW. The [C II] observations
in the southern PDR cannot be explained with stratified nor clumpy PDR models.Comment: 4 pages, 4 figures, letter accepted for the SOFIA/GREAT A&A 2012
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