2,786 research outputs found
Analyticity and the counting rule of matrix poles
By studying scattering amplitudes in the large limit, we
clarify the dependence of the matrix pole position. It is
demonstrated that analyticity and the counting rule exclude the existence
of matrix poles with . Especially the properties
of and with respect to the expansion are discussed.
We point out that in general tetra-quark resonances do not exist.Comment: This paper replaces hep-ph/0412175. The latter is withdraw
Experimental Evidence of Boundary Induced Coupling Currents in LHC Prototypes
The field quality of 10 m long LHC dipole models has been measured with short rotating coils to explore its dependence on time and position. Multipoles exhibit a longitudinal periodic variation, with period equal to the twist pitch length. This periodicity is shown here to have at least two components with very different time constants. The amplitude of the component with the shorter time constant, in the range of 100 to 300 s, depends on position and time. Larger amplitudes are measured at early times after a ramp and close to regions with incomplete cable transposition with respect to the non-uniform external field change. As the multipoles periodicity is due to current imbalance in the cables, we attribute the short time scale variations to the presence of space and time decaying boundary induced coupling currents (BICC's) in the cable. An estimate of their value is give
When challenges hinder: An investigation of buyer-imposed stressors on supplier flexibility
Working with buyers may drive business growth but can also induce supplier stress. Drawing on Job Demands–Resources (JD-R) theory, this study explored how buyer-imposed work stressors affect supplier flexibility. Employing a scenario-based experiment involving 338 managers, we found that the imposition of challenge stressors increases supplier flexibility when hindrance stressors are low. Conversely, when hindrance stressors are high, imposing challenge stressors reduces supplier flexibility. We also found that supplier bricolage negatively moderates the relationship between buyer-imposed challenge stressors and supplier flexibility. Specifically, we confirmed that suppliers with higher bricolage are less willing to provide flexibility in response to challenge stressors. For practitioners, our study not only identified the type of work stressors they should impose on suppliers to boost flexibility but also highlighted bricolage as an important moderating factor
Magnetic Field Quality of Short Superconducting Dipole Model Magnets for LHC
A series of 1-m long, 56 mm aperture dipole models has been built and tested at CERN within the scope of the R&D program for LHC. Here we report a summary of results of warm and cold steady state field measurements in these models, concentrating on the contribution of the coil geometry. The first allowed harmonics are clearly correlated to the coil azimuthal size, and the slope of the correlation can be predicted accurately
A user-friendly wearable single-channel EOG-based human-computer interface for cursor control
This paper presents a novel wearable single-channel electrooculography (EOG) based human-computer interface (HCI) with a simple system design and robust performance. In the proposed system, EOG signals for control are generated from double eye blinks, collected by a commercial wearable device (the NeuroSky MindWave headset), and then converted into a sequence of commands that can control cursor navigations and actions. The EOG-based cursor control system was tested on 8 subjects in indoor or outdoor environment, and the average accuracy is 84.42% for indoor uses and 71.50% for outdoor uses. Compared with other existing EOG-based HCI systems, this system is highly user-friendly and does not require any training. Therefore, this system has the potential to provide an easy-to-use and cheap assistive technique for locked-in patients who have lost their main body muscular abilities but with proper eye-condition. © 2015 IEEE.published_or_final_versio
In silico cloning and bioinformatic analysis of PEPCK gene in Fusarium oxysporum
Phosphoenolpyruvate carboxykinase (PEPCK), a critical gluconeogenic enzyme, catalyzes the first committed step in the diversion of tricarboxylic acid cycle intermediates toward gluconeogenesis. According to the relative conservation of homologous gene, a bioinformatics strategy was applied toclone Fusarium oxysporum phosphoenolpyruvate carboxykinase gene (PEPCK) by blasting search of EST database with homologous gene cDNA of Neurospora crassa and identified. Some characters of the PEPCK that were analyzed and predicted by the tools of bioinformatics in the following aspects include the composition of amino acid sequences, physical and chemical properties, O-glycosylation site, hydrophobicity or hydrophilicity, secondary and tertiary structure of the protein and function. These results showed that the full-length of PEPCK was 1771 bp and it contained a complete ORF (1575 bp), encoded 524 amino acids, which is much conserved in ascomycetes. The calculated molecular weight of PEPCK was 58358.2 Da, theoretical pI of 6.84. It has 20 -helices, 37 sheets, and 12glycosylation sites. It was a hydrophilic and stable protein with active site, ATP -binding site, metalbinding site and substrate-binding site
The resource investigation and community structure characteristics of mycorrhizal fungi associated with Chinese fir
Chinese fir is one of the most important commercial timber species in south China. Mycorrhizal fungi has been applied in many trees and showed important effect on enhancing the productive forces and the soil activities, but there is little report about the mycorrhizal fungi on Chinese fir. So this paper investigated the mycorrhizal fungi resources of Chinese fir in Hunan province and analyzed the relation of community with the environment factors. The results showed that, abuscular mycorrhizal fungi (AMF) existed universally in the roots of Chinese fir. 75 specimen of AMF spores were isolated by wet-sieved method from this collection of the rhizosphere soils. They were identified by morphologic method to 4 genera and 9 species of AMF, which 5 species belong to Glomus, 1 of Gigaspora, 2 of Acaulospora and 1 of Scutellospora. In the isolated AMF, the importance value of Glomus mosseae, Glomus intraradices and Acaulospora laevis were more than 50% and the spore number of them was significantly higher than other species. These 3 species of AMF were considered as the dominate species in rhizosphere soil of Chinese fir in Hunan province. This research also indicated that, mycorrhiza forming was associated with the environment factors. The AMF spores density has the extremely remarkable correlational dependence with vegetation quantity in Chinese Fir forest (r2=0.943, p < 0.05). Mycorrhiza distribution also associated with seasons and forest age; the most active season of mycorrhiza was between spring and summer and the natural AMF infection rate was increased along with the increasing of forest age. The results will not only provide the theory basis for exploitation and using of mycorrhizal resource, but also enhance the survival rate of seedling and prevent the soil degradation and conserve of soil against erosion.Key words: Mycorrhizal fungi, vesicle-abuscular, Chinese fir, mycorrhizal inocula
Coil Size and Geometric Field Quality in Short Model Dipoles for LHC
We have measured the magnetic field at room temperature and at 1.8 K on more than twenty, 1-m long, single aperture LHC superconducting dipole models. The magnets feature either a 5-block coil geometry or the baseline 6-block geometry foreseen for the LHC. Comparison of warm and cold measurements show that the coil geometry is essentially unchanged during cooldown. We have therefore used mechanical measurements taken on the coil and collars during assembly to estimate the azimuthal coil length. Based on these measurements we show here that the sensitivity of allowed harmonics on coil size is in good agreement with the prediction obtained from the numerical model used for designing the LHC magnets
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Prevalence of established and emerging biomarkers of immune checkpoint inhibitor response in advanced hepatocellular carcinoma.
The clinical deployment of immune checkpoint inhibitors (ICIs) has created a tandem drive for the identification of biomarkers linked to benefit. Comprehensive genomic profiling was performed to evaluate the frequency of genomic biomarkers of ICI response in 755 patients with advanced hepatocellular carcinoma (HCC). Median age was 62 years' old, 73% were male, 46% had extrahepatic disease, 107 had documented hepatitis C, 96 had hepatitis B and 4 patients were coinfected. Median tumor mutation burden (TMB) was 4 mutations/Mb and only 6 tumors (0.8%) were TMB-high. Out of 542 cases assessed for microsatellite instability (MSI), one (0.2%) was MSI-high and TMB-high. Twenty-seven (4%) patients had POLE/D alterations. One patient had a pathogenic POLE R762W mutation but TMB was 4 mutations/Mb. Forty percent had DNA damage response gene alterations. In a small case series (N=17) exploring the relationship between biomarkers and ICI response, one patient (TMB 15 mutations/Mb, MSI-low) had a sustained complete response to nivolumab lasting > 2 years. Otherwise there were no significant genomic or TMB differences between responders, progressors, and those with stable disease. Overall, markers of genomic instability were infrequent in this cohort. Larger clinically annotated datasets are needed to explore genomic and non-genomic determinants of ICI response in HCC
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