847 research outputs found

    Comparison of big event with calculations of the air shower development

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    The incidence of high energy hadrons and electron-photons in air showers at various stages of development is calculated. Numerical calculation is used to solve the diffusion equation for a nuclear cascade and analytical calculation for cascade shower induced gamma rays. From these calculations, one can get the longitudinal development of the high energy hadron and electron-photon components, and the energy spectra of these components at various depths of air shower development. The total number of hadrons (N sub H) and electron-photon components (N sub gamma) are related according to stages of the air shower development and primary energy. The relation of the total energy of hadron and electron-photon component above the threshold energy is given. The energy balance between both components is also a useful parameter to study high energy events accompanying air showers. The relation of N sub H and fractional hadronic energy E (sum E sub H sup gamma/sum E sub H sup gamma + Sum E sub gamma) is calculated. This relation is helpful to understand the stage of air shower development(t) and primary energy (E sub p)

    Anisotropic spin fluctuations and multiple superconducting gaps in hole-doped Ba_0.7K_0.3Fe_2As_2: NMR in a single crystal

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    We report the first ^{75}As-NMR study on a single crystal of the hole-doped iron-pnictide superconductor Ba_{0.7}K_{0.3}Fe_2As_{2} (T_c = 31.5 K). We find that the Fe antiferromagnetic spin fluctuations are anisotropic and are weaker compared to underdoped copper-oxides or cobalt-oxide superconductors. The spin lattice relaxation rate 1/T_1 decreases below T_c with no coherence peak and shows a step-wise variation at low temperatures, which is indicative of multiple superconducting gaps, as in the electron-doped Pr(La)FeAsO1−x_{1-x}Fx_{x}. Furthermore, no evidence was obtained for a microscopic coexistence of a long-range magnetic and superconductivity

    Hydration-induced anisotropic spin fluctuations in Na_{x}CoO_{2}\cdot1.3H_{2}O superconductor

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    We report ^{59}Co NMR studies in single crystals of cobalt oxide superconductor Na_{0.42}CoO_{2}\cdot1.3H_{2}O (T_c=4.25K) and its parent compound Na_{0.42}CoO_{2}. We find that both the magnitude and the temperature (T) dependence of the Knight shifts are identical in the two compounds above T_c. The spin-lattice relaxation rate (1/T_1) is also identical above T_0 \sim60 K for both compounds. Below T_0, the unhydrated sample is found to be a non-correlated metal that well conforms to Fermi liquid theory, while spin fluctuations develop in the superconductor. These results indicate that water intercalation does not change the density of states but its primary role is to bring about spin fluctuations. Our result shows that, in the hydrated superconducting compound, the in-plane spin fluctuation around finite wave vector is much stronger than that along the c-axis, which indicates that the spin correlation is quasi-two-dimensional.Comment: 4 pages, 5 figure

    Pressure-induced unconventional superconductivity near a quantum critical point in CaFe2As2

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    75As-zero-field nuclear magnetic resonance (NMR) and nuclear quadrupole resonance (NQR) measurements are performed on CaFe2As2 under pressure. At P = 4.7 and 10.8 kbar, the temperature dependences of nuclear-spin-lattice relaxation rate (1/T1) measured in the tetragonal phase show no coherence peak just below Tc(P) and decrease with decreasing temperature. The superconductivity is gapless at P = 4.7 kbar but evolves to that with multiple gaps at P = 10.8 kbar. We find that the superconductivity appears near a quantum critical point under pressures in the range 4.7 kbar < P < 10.8 kbar. Both electron correlation and superconductivity disappear in the collapsed tetragonal phase. A systematic study under pressure indicates that electron correlations play a vital role in forming Cooper pairs in this compound.Comment: 5pages, 5figure

    Na content dependence of superconductivity and the spin correlations in Na_{x}CoO_{2}\cdot 1.3H_{2}O

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    We report systematic measurements using the ^{59}Co nuclear quadrupole resonance(NQR) technique on the cobalt oxide superconductors Na_{x}CoO_{2}\cdot 1.3H_{2}O over a wide Na content range x=0.25\sim 0.34. We find that T_c increases with decreasing x but reaches to a plateau for x \leq0.28. In the sample with x \sim 0.26, the spin-lattice relaxation rate 1/T_1 shows a T^3 variation below T_c and down to T\sim T_c/6, which unambiguously indicates the presence of line nodes in the superconducting (SC) gap function. However, for larger or smaller x, 1/T_1 deviates from the T^3 variation below T\sim 2 K even though the T_c (\sim 4.7 K) is similar, which suggests an unusual evolution of the SC state. In the normal state, the spin correlations at a finite wave vector become stronger upon decreasing x, and the density of states at the Fermi level increases with decreasing x, which can be understood in terms of a single-orbital picture suggested on the basis of LDA calculation.Comment: version published in J. Phys. Condens. Matter (references updated and more added

    Duration reproduction in regular and irregular contexts after unilateral brain damage: Evidence from voxel-based lesion-symptom mapping and atlas-based hodological analysis

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    It has been proposed that not completely overlapping brain networks support interval timing depending on whether or not an external, predictable temporal cue is provided during the task, aiding time estimation. Here we tested this hypothesis in a neuropsychological study, using both a topological approach – through voxel-based lesion-symptom mapping (VLSM), that assesses the relation between continuous behavioral scores and lesion information on a voxel-by-voxel basis – and a hodological approach, using an atlas-based tractography. A group of patients with unilateral focal brain lesions and their matched controls performed a duration reproduction task assessing time processing in two conditions, namely with regularly spaced stimuli during encoding and reproduction (Regular condition), and with irregularly spaced stimuli during the same task (Irregular condition). VLSM analyses showed that scores in the two conditions were associated with lesions involving partly separable clusters of voxels, with lower performance only in the Irregular condition being related to lesions involving the right insular cortex. Performance in both conditions correlated with the probability of disconnection of the right frontal superior longitudinal tract, and of the superior and middle branches of the right superior longitudinal fasciculus. These findings suggest that the dissociation between timing in regular and irregular contexts is not complete, since performance in both conditions relies on the integrity of a common suprasecond timing network. Furthermore, they are consistent with the hypothesis that tracking time without the aid of external cues selectively relies on the integration of psychophysiological changes in the right insula

    59-Co and 75-As NMR Investigation of Electron-Doped High Tc Superconductor BaFe(1.8)Co(0.2)As(2) (Tc = 22K)

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    We report an NMR investigation of the superconductivity in BaFe(2)As(2) induced by Co doping (Tc=22K). We demonstrate that Co atoms form an alloy with Fe atoms and donate carriers without creating localized moments. Our finding strongly suggests that the underlying physics of iron-pnictide superconductors is quite different from the widely accepted physical picture of high Tc cuprates as doped Mott insulators. We also show a crossover of electronic properties into a low temperature pseudo-gap phase with a pseudo-gap Delta 560K, where chi(spin) constant and resisitivty T. The NMR Knight shift below Tc decreases for both along the c-axis and ab-plane, and is consistent with the singlet pairing scenario.Comment: Accepted for publication in J. Phys. Soc. Jpn. (4 pages

    Spin Fluctuations and Unconventional Superconductivity in the Fe-based Oxypnictide Superconductor LaFeAsO_0.7 probed by 57Fe-NMR

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    We report 57^{57}Fe-NMR studies on the oxygen-deficient iron (Fe)-based oxypnictide superconductor LaFeAsO0.7_{0.7} (Tc=T_{c}= 28 K) enriched by 57^{57}Fe isotope. In the superconducting state, the spin component of 57^{57}Fe-Knight shift 57K^{57}K decreases almost to zero at low temperatures and the nuclear spin-lattice relaxation rate 57(1/T1)^{57}(1/T_{1}) exhibits a T3T^{3}-like dependence without the coherence peak just below TcT_{c}, which give firm evidence of the unconventional superconducting state formed by spin-singlet Cooper pairing. All these events below TcT_c are consistently argued in terms of the extended s±_{\pm}-wave pairing with a sign reversal of the order parameter among Fermi surfaces. In the normal state, we found the remarkable decrease of 1/T1T1/T_1T upon cooling for both the Fe and As sites, which originates from the decrease of low-energy spectral weight of spin fluctuations over whole q{\bm q} space upon cooling below room temperature. Such behavior has never been observed for other strongly correlated superconductors where an antiferromagnetic interaction plays a vital role in mediating the Cooper pairing.Comment: 4 pages, 4 figures,Accepted for publication in J. Phys. Soc. Jpn., vol.78, No.1 (2009

    Spatial distribution and habitat characterisation of mosquito species in the lake and land habitats of western Kenya

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    Background: Infections with mosquito-borne parasites are common in humanpopulations inhabiting tropical regions of the world. Malaria is endemic along Kenyan Lake Victoria basin and its vectors are fresh water breeders. However, much less is known about the current spatial distribution and habitat characterisation of mosquitoes including vectors of malaria in the lake waters and adjacent terrestrial aquatic habitats.Objectives: To characterise mosquito larval habitats and to determine the spatialdistribution of mosquito species in lake and land habitats, measure aquatic habitats’ (water) physic-chemical parameters, enumerate the number of phytoplankton, zooplankton and fish species and determine their effects on the abundance of mosquitoes. This could allow larval control to be more effectively targeted at specific sites which in its turn could reduce malaria transmission in the area.Design: Cross-sectional study.Setting: The Kenyan Lake Victoria Basin.Results: Anopheles and Culex species of mosquitoes were absent in different locations in the lake, but abundant in different aquatic habitats in different locations on land. There was heterogeneity in the relative abundance of Anopheles and Culex species in the aquatic habitats in different locations on land, p&lt;0.001, Bartlett’s test. There were more Anopheles mosquito in quary and shoreline swamp puddles, flood plain, and stream edge puddles than natural swamps, rivers and permanent ponds habitats, P&lt;0.001. There was no significant correlation of the abundance of Anopheles and physico-chemical parameters, P&gt;0.05 (Pearsons correlation coefficiency). Also, there was no significant correlation between abundance of Anopheles mosquitoes and phytoplanktons, (P&gt;0.05). Significant correlation was however, observed with Dinoflagellates on land, P=0.014. Clarias gariepinus were more insectivorous compared to Oreochromis niloticus, which mostly fed on zooplankton and food remains. The most abundant mosquitoes in the lake were Mansonia followed by Aedes species of mosquitoes.Conclusion: Anopheles species of mosquitoes do not breed in deep permanent lake waters even if it is heavily infested by water hyacinth and other aquatic weeds. However, they breed in temporary or seasonal aquatic land habitats such as pools and swamps, more so when infested by aquatic and other vegetations. We recommend that, focus of malaria vector control should concentrate on land sites. Health education and awareness programs should be scaled up to inform the local communities on mosquito species ecology in relation to transmission of malaria and other mosquito- borne diseases. There is need to introduce certain fish species (Clarias gariepinus) for biological control of mosquitoes breeding in the aquatic habitats near human habitats

    Evidence for Unconventional Superconductivity in Arsenic-Free Iron-Based Superconductor FeSe : A ^77Se-NMR Study

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    We report the results of 77^{77}Se--nuclear magnetic resonance (NMR) in α\alpha-FeSe, which exhibits a similar crystal structure to the LaFeAsO1−x_{1-x}Fx_x superconductor and shows superconductivity at 8 K. The nuclear-spin lattice relaxation rate 1/T11/T_1 shows T3T^3 behavior below the superconducting transition temperature TcT_c without a coherence peak. The T1T=T_1T= const. behavior, indicative of the Fermi liquid state, can be seen in a wide temperature range above TcT_c. The superconductivity in α\alpha-FeSe is also an unconventional one as well as LaFeAsO1−x_{1-x}Fx_x and related materials. The FeAs layer is not essential for the occurrence of the unconventional superconductivity.Comment: 4pages, 4figures, to be published in J. Phys. Soc. Jpn. 77 No.11 (2008
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