13 research outputs found
X-ray Spectroscopy of a Rare-Earth Molecular System Measured at the Single Atom Limit in Room Temperature
We investigate the limit of X-ray detection at room temperature on rare-earth
molecular films using lanthanum and a pyridine-based dicarboxamide organic
linker as a model system. Synchrotron X-ray scanning tunneling microscopy is
used to probe the molecules with different coverages on a HOPG substrate.
X-ray-induced photocurrent intensities are measured as a function of molecular
coverage on the sample allowing a correlation of the amount of La ions with the
photocurrent signal strength. X-ray absorption spectroscopy shows cogent M4,5
absorption edges of the lanthanum ion originated by the transitions from the
3d3/2 and 3d5/2 to 4f orbitals. X-ray absorption spectra measured in the
tunneling regime further reveal an X-ray excited tunneling current produced at
the M4,5 absorption edge of La ion down to the ultimate atomic limit at room
temperature.Comment: 19 pages, 4 figure
Customized and Secure Image Steganography through Least Significant Bit Replacement
Steganography is the process of hiding a secret message within a larger one in such a way that someone can not know the presence or contents of hidden message. The purpose of Steganography is to maintain secret communication between two parties. The basic structure of Steganography is made up of three components: the “carrier”, the message, and the key. The carrier can be a painting, a digital image, an mp3 and even a TCP/IP packet among other things. It is the object that will „carry‟ hidden message. A key is used to decode/decipher/discover hidden message. This can be anything from a password, a pattern, a black-light, or even lemon juice. This system presents how Steganography is used in a modern context while a practical understanding of what Steganography is providing how to accomplish it. This paper describes the design of a data hiding structure using Steganography. In this paper, we focus on the use of Steganography within digital images using Least Significant Bit (LSB) substitution
STYLES OF IRON ORE MINERALIZATION AT THE SCHWANER MOUNTAINS AREA, SOUTHWEST KALIMANTAN, INDONESIA
The Schwaner Mountains area is located in the Southwest Kalimantan
Islands, Indonesia. After the deposition of Permo-Carboniferous sediments on a
basement complex of crystalline schists and the emplacement of gabbroic plutonic
masses, the zone of the Schwaner Mountains had been invaded by large granitic to
quartz-dioritic (tonalitic) batholiths. Iron ore mineralization is formed with these
granitic intrusions within the Schwaner Mountains. The purpose of this research is
to study of the style of each iron ore mineralization and their mineralogical and
geochemical characteristics of different iron ore mineralizations associated with
granitic intrusions as well as the geochemical characteristics of granitic rocks.
During this research, four iron ore mineralizations are visited to study their nature,
style, petrographic studies and significant geochemical characteristics of each iron
ore. Ruwai iron ore mineralization is directly associated with dioritic intrusion and
the iron ore mineralization occurs as the massive iron ore at the contact of
intrusion and volcanic unit from the hanging wall. The iron ore mineralization
style is characterized by skarn style mineralization and the principle ore minerals
are magnetite and hematite that occur within the proximal garnet zone. The next
iron ore mineralization Sejambuan iron ore occurs as a massive body at the
contact zone between granite intrusion and volcanic andesite unit which is highly
altered with kaolinite and illite mineral assemblages. The iron ore mineralization
is associated with alteration envelopes and alterations are seemed to be products
of hydrothermal event. The Ombangan iron ore mineralization is located near the
Ruwai iron ore mineralization and the iron mineralization here occurs as massive
magnetite associated with granite intrusions and volcanic-sedimentary units. The
mineralization style is considered as skarn style mineralization associated with
intrusion. The evidence of skarn mineral assemblages garnet occurs within the ore
zone and those are replaced by magnetite. The last iron ore mineralization, the
Bukit Besi iron ore mineralization, is different from the other three iron
mineralizations in area. The principle iron ore minerals hematite occurs associated
with the alternating band of microcrystalline quartz (chert).
The geochemical signatures of each iron ore are entirely composed of Fe2O3
and slightly different variable concentration of other major element oxides. The
encountered incompatible trace elements are generally low concentrations except
the transition and chalcophile elements are variable for each iron deposit. The rare
earth elements are generally depleted and most of their REE chondite-normalized
patterns display fractionation LREE in respect to HREE and some are displayed
with distinct positive Ce and Eu anomalies
Cross-Cultural Communication Challenges between Swedish Managers and Burmese and Vietnamese Employees: How are those Communication Challenges related to GLOBE’s Cultural Dimensions?
This study investigates the cross-cultural communication challenges between the Swedish managers and their local employees from the perspectives of Swedish managers in Burmese and Vietnamese organisations. It adopts mixed models in which it embraces, both, the deductive and inductive approaches. The deductive study was conducted to derive the Swedish managers’ perceptions of the cultural dimensions of the local organisations using the GLOBE’s instrument. The inductive study was conducted to explore the challenges based on the cultural perceptions and to identify the relationship between the challenges and the cultural dimensions. This study also identifies the similarities and differences in the cultural dimensions between Myanmar and Vietnam. The countries for this research, Myanmar and Vietnam, have not yet been included in GLOBE’s current research. Therefore, it motivated us to conduct this study by using the GLOBE’s instrument on those two countries. The findings from this investigation are not only an effort to understand how the GLOBE’s nine cultural dimensions are related to the communication challenges of the Swedish managers in Myanmar and Vietnam; to a greater degree it is also to emphasise further on the challenges and their causes to improve on future cooperation between Sweden and the host nations, Myanmar and Vietnam. The findings showed that the majority of the interviewed Swedish managers in both regions face similar communication challenges such as reluctance of employees to raise issues, language barriers between the employees and the Swedish managers as well as the difficulties of understanding the indirect communication. They provided that the causes for the communication problems are, among others, at the schooling system, social values of losing face and language proficiency of the local employees. It is difficult to generalise the findings because the challenges are varied based on the work environment and the different perceptions of the local culture by the Swedish managers. However, there are patterns that emerged from the findings, which display the relationship between the challenges and the cultural dimensions. The discovery of that relationship is the main theoretical contribution of this study. Moreover, the cultural insights of the experienced Swedish managers from this study can help the future foreign or Swedish managers who are moving to the region to understand the local culture better and prepare accordingly to the challenges
Estimation of Aerodynamic Parameters in Conditions of Measurement
The paper discusses the problem of aircraft parameter identification in conditions of measurement noises. It is assumed that all the signals involved into the process of identification are subjects to measurement noises, that is measurement random errors normally distributed. The results of simulation are presented which show the relation between the noises standard deviations and the accuracy of identification
Estimation of Aerodynamic Parameters in Conditions of Measurement
The paper discusses the problem of aircraft parameter identification in conditions of measurement noises. It is assumed that all the signals involved into the process of identification are subjects to measurement noises, that is measurement random errors normally distributed. The results of simulation are presented which show the relation between the noises standard deviations and the accuracy of identification
The Relationship Between Urinary Stone Disease and Nutrition Type in Infants
The relationship between urinary stone disease and nutrition in infants is not well known. This study investigates the relationship between breast milk, formula and supplementary foods, vitamin D usage, and family stone history with urinary system stones in children aged 3-24 months. The study included 100 infants aged 3-24 months of age with urinary tract stones and 40 healthy infants with similar age and gender as the control group. Sixty of the patients were boys, and 40 were girls; the control group consisted of 26 boys and 16 girls. There was no significant difference in only breastfeeding, breastfeeding plus formula, and formula feeding in the patients and controls. Positive family history of urolithiasis was significantly higher in the patients compared to the controls (p=0.04). While breastfeeding duration time was negatively correlated with spot urine calcium to creatinine ratio in children exclusively breastfed infants. No direct effect of nutrition type and vitamin D usage on stone formation was found in infants. It has been shown that stone formation in this age group is associated with a family history of stones. In this study, the duration of breastfeeding is negatively correlated with the spot urinary calcium to creatinine ratio
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Nanofabrication and Demonstration of a Direct-Write Microevaporator
Direct-write vapor deposition is a new technique that would enable one-step 3D maskless nanofabrication on a variety of substrates. A novel silicon chip-based microevaporator is developed that allows evaporant to exit through 2000–300 nm nozzles while held at distances comparable to the nozzle diameter from the substrate by a three-axis nanopositioning stage in vacuum. This results in a localized deposition on the substrate, which may be scanned relative to the substrate to produce direct-write patterns. The performance of the microevaporator is tested by creating localized depositions of various materials and the line-writing potential is demonstrated. The relationship between linewidth and source-to-substrate distance is investigated by the application of Knudsen's cosine law and Monte-Carlo simulations, and then utilized to approximate the source-to-substrate distance from performed depositions
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Anomalous Kondo resonance mediated by semiconducting graphene nanoribbons in a molecular heterostructure.
Kondo resonances in heterostructures formed by magnetic molecules on a metal require free host electrons to interact with the molecular spin and create delicate many-body states. Unlike graphene, semiconducting graphene nanoribbons do not have free electrons due to their large bandgaps, and thus they should electronically decouple molecules from the metal substrate. Here, we observe unusually well-defined Kondo resonances in magnetic molecules separated from a gold surface by graphene nanoribbons in vertically stacked heterostructures. Surprisingly, the strengths of Kondo resonances for the molecules on graphene nanoribbons appear nearly identical to those directly adsorbed on the top, bridge and threefold hollow sites of Au(111). This unexpectedly strong spin-coupling effect is further confirmed by density functional calculations that reveal no spin-electron interactions at this molecule-gold substrate separation if the graphene nanoribbons are absent. Our findings suggest graphene nanoribbons mediate effective spin coupling, opening a way for potential applications in spintronics.Semiconducting graphene nanoribbon provides a platform for band-gap engineering desired for electronic and optoelectronic applications. Here, Li et al. show that graphene nanoribbon can effectively mediate the interaction of molecular magnetic moment and electronic spin in underlying metallic substrates