Search results for "Single"

showing 10 items of 4920 documents

"Table 6" of "Heavy flavour decay muon production at forward rapidity in proton--proton collisions at \sqrt(s) = 7 TeV"

2012

pT-differential production cross section of muons from heavy flavour decays, in the rapidity range 3.4

Di-Muon ProductionPhysics::Instrumentation and DetectorsHigh Energy Physics::LatticeHigh Energy Physics::Phenomenology7000.0Muon productionInclusiveSingle Differential Cross SectionP P --> CHARM CHARMBAR XProton-Proton ScatteringP P --> BOTTOM BOTTOMBAR XHigh Energy Physics::ExperimentDSIG/DPTP P --> MU+ MU- XTransverse Momentum Dependence
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"Table 5" of "Heavy flavour decay muon production at forward rapidity in proton--proton collisions at \sqrt(s) = 7 TeV"

2012

pT-differential production cross section of muons from heavy flavour decays, in the rapidity range 3.1

Di-Muon ProductionPhysics::Instrumentation and DetectorsHigh Energy Physics::LatticeHigh Energy Physics::Phenomenology7000.0Muon productionInclusiveSingle Differential Cross SectionP P --> CHARM CHARMBAR XProton-Proton ScatteringP P --> BOTTOM BOTTOMBAR XHigh Energy Physics::ExperimentDSIG/DPTP P --> MU+ MU- XTransverse Momentum Dependence
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"Table 4" of "Heavy flavour decay muon production at forward rapidity in proton--proton collisions at \sqrt(s) = 7 TeV"

2012

pT-differential production cross section of muons from heavy flavour decays, in the rapidity range 2.8

Di-Muon ProductionPhysics::Instrumentation and DetectorsHigh Energy Physics::LatticeHigh Energy Physics::PhenomenologyP P --> BOTTOM BOTTOMBAR < MU+ X > X7000.0Muon productionInclusiveSingle Differential Cross SectionP P --> CHARM CHARMBAR XProton-Proton ScatteringHigh Energy Physics::ExperimentDSIG/DPTP P --> MU+ MU- XTransverse Momentum Dependence
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"Table 2" of "Heavy flavour decay muon production at forward rapidity in proton--proton collisions at \sqrt(s) = 7 TeV"

2012

y-differential production cross section of muons from heavy flavour decays, in the range 2

Di-Muon ProductionPhysics::Instrumentation and DetectorsHigh Energy Physics::LatticeRapidity DependenceHigh Energy Physics::Phenomenology7000.0DSIG/DYRAPMuon productionInclusiveSingle Differential Cross SectionP P --> CHARM CHARMBAR XProton-Proton ScatteringP P --> BOTTOM BOTTOMBAR XPhysics::Accelerator PhysicsHigh Energy Physics::ExperimentP P --> MU+ MU- X
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A new mixed-valence hexanuclear cobalt complex, [Co4IICo2III(dea)2(Hdea)4)(piv)4](ClO4)2·H2O: Synthesis, crystal structure and magnetic properties

2010

A new Co II /Co III hexanuclear complex, [Co 4 II Co 2 III (dea) 2 (Hdea) 4 )(piv) 4 ](ClO 4 ) 2 ·H 2 O 1 , has been obtained by reacting cobalt(II) perchlorate, diethanolamine, and pivalic acid (H 2 dea = diethanolamine and piv = pivalato anion). The cobalt ions are held together by four μ 3 and four μ 2 alkoxo bridges as well as by four syn – syn carboxylato groups. The hexanuclear motif contains four Co(II) and two Co(III) ions. The {Co II 4 Co III 2 (μ 2 -O) 4 (μ 3 -O) 4 } core can be described as a four face-sharing monovacant and bivacant distorted heterocubane units. The cobalt(III) ions are hexacoordinated. Two of the cobalt(II) are hexacoordinated, while the two others are pentacoo…

DiethanolamineValence (chemistry)Pivalic acidchemistry.chemical_elementCrystal structureInorganic ChemistryPerchloratechemistry.chemical_compoundCrystallographyBipyramidchemistryMaterials ChemistrySinglet statePhysical and Theoretical ChemistryCobaltInorganica Chimica Acta
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Anisotropic lattice distortions in biogenic calcite induced by intra-crystalline organic molecules.

2006

9 pages; International audience; We have performed precise structural measurements on five different calcitic seashells by high-resolution X-ray powder diffraction on a synchrotron beam line and by laboratory single crystal X-ray diffraction. The unit cell parameters a and c of biogenic calcite were found to be systematically larger than those measured in the non-biogenic calcite. The maximum lattice distortion (about 2.10(-3)) was detected along the c-axis. Under heat treatment above 200 degrees C, a pronounced lattice relaxation was observed, which allowed us to conclude that anisotropic lattice swelling in biogenic calcite is induced by organic macromolecules incorporated within the sing…

DiffractionBiomineralizationMESH : Calcium CarbonateMESH: Bivalvia02 engineering and technologyCrystallography X-Ray01 natural scienceslaw.inventionchemistry.chemical_compoundStructural BiologylawMESH : BivalviaOstreaMESH : AnisotropyMESH: AnimalsOrganic ChemicalsCrystallizationAnisotropyMESH: CrystallizationCalciteMESH: OstreaSynchrotron radiationCalciteCrystal growth and nucleationMESH : Organic Chemicals021001 nanoscience & nanotechnologyMESH: Calcium CarbonateMESH : CrystallizationX-ray crystallographyCrystallization0210 nano-technologyMaterials scienceMESH : Crassostrea010402 general chemistryCalcium CarbonateAnimalsCrassostreaIntra-crystalline organic molecules[SDV.IB.BIO]Life Sciences [q-bio]/Bioengineering/BiomaterialsBiogenic crystalsMESH : OstreaMESH: Organic ChemicalsMESH: Crystallography X-Ray[ SDV.IB.BIO ] Life Sciences [q-bio]/Bioengineering/BiomaterialsBivalvia0104 chemical sciencesX-ray diffractionCrystallographyMESH: CrassostreachemistryMESH: AnisotropyAnisotropyMESH : AnimalsMESH : Crystallography X-RaySingle crystalPowder diffractionBiomineralization
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Computational chemistry meets experiments for explaining the geometry, electronic structure, and optical properties of Ca10V6O25

2018

In this paper, we present a combined experimental and theoretical study to disclose, for the first time, the structural, electronic, and optical properties of Ca10V6O25 crystals. The microwave-assisted hydrothermal (MAH) method has been employed to synthesize these crystals with different morphologies, within a short reaction time at 120 °C. First-principle quantum mechanical calculations have been performed at the density functional theory level to obtain the geometry and electronic properties of Ca10V6O25 crystal in the fundamental and excited electronic states (singlet and triplet). These results, combined with the measurements of X-ray diffraction (XRD) and Rietveld refinements, confirm…

DiffractionChemistryFILMES FINOSGeometry02 engineering and technologyElectronic structure010402 general chemistry021001 nanoscience & nanotechnology01 natural sciences0104 chemical sciencesInorganic ChemistryCrystalOctahedronLattice (order)TetrahedroncrystalsDensity functional theorySinglet statePhysical and Theoretical Chemistry0210 nano-technology
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Crystal structure analysis of a star-shaped triazine compound: a combination of single-crystal three-dimensional electron diffraction and powder X-ra…

2017

The solid-state structure of star-shaped 2,4,6-tris{(E)-2-[4-(dimethylamino)-phenyl]ethenyl}-1,3,5-triazine is determined from a powder sample by exploiting the respective strengths of single-crystal three-dimensional electron diffraction and powder X-ray diffraction data. The unit-cell parameters were determined from single crystal electron diffraction data. Using this information, the powder X-ray diffraction data were indexed, and the crystal structure was determined from the powder diffraction profile. The compound crystallizes in a noncentrosymmetric space group,P212121. The molecular conformation in the crystal structure was used to calculate the molecular dipole moment of 3.22 Debye,…

DiffractionChemistryMetals and Alloys02 engineering and technologyCrystal structure010402 general chemistry021001 nanoscience & nanotechnology01 natural sciencesAtomic and Molecular Physics and Optics0104 chemical sciencesElectronic Optical and Magnetic MaterialsDipolesymbols.namesakeCrystallographyElectron diffractionX-ray crystallographyMaterials Chemistrysymbols0210 nano-technologySingle crystalPowder diffractionDebyeActa crystallographica Section B, Structural science, crystal engineering and materials
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The influence of the cation on the conformation of the anion μ-hydridobis[pentacarbonylchromium(0)]: crystal and molecular structure of [(phenH)2Cl][…

1999

Abstract The crystal and molecular structures of [(phenH)2Cl][Cr2(CO)10(μ-H)] (1) and [K(phen)2][Cr2(CO)10(μ-H)] (2) have been determined by single crystal X-ray diffraction. The availability of the potassium cation for the carbonyl oxygens coordination influences the conformation of the anion in 2 as demonstrated by the comparison with the non-coordinating [(phenH)2Cl] cation in 1 and with literature data.

DiffractionChemistryOrganic ChemistryCrystal structurePotassium CationBiochemistryIonInorganic ChemistryCrystalCrystallographyMaterials ChemistryMoleculePhysical and Theoretical ChemistrySingle crystalJournal of Organometallic Chemistry
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Snapshots of a solid-state transformation: Coexistence of three phases trapped in one crystal

2016

Crystal-to-crystal transformations have been crucial in the understanding of solid-state processes, since these may be studied in detail by means of single crystal X-ray diffraction (SCXRD) techniques. The description of the mechanisms and potential intermediates of those processes remains very challenging. In fact, solid-state transient states have rarely been observed, at least to a sufficient level of detail. We have investigated the process of guest extrusion from the non-porous molecular material [Fe(bpp)(HL)](ClO)·1.5CHO (bpp = 2,6-bis(pyrazol-3-yl)pyridine; HL = 2,6-bis(5-(2-methoxyphenyl)-pyrazol-3-yl)pyridine; CHO = acetone), which occurs through ordered diffusion of acetone in a c…

DiffractionCristal·lografiaCalorimetry010402 general chemistry7. Clean energy01 natural sciencesSolid state chemistryCrystalsymbols.namesakePhase (matter)QDDiffusion (business)Difracció de raigs XSpectroscopyCrystallography010405 organic chemistryChemistryX-rays diffractionGeneral ChemistryEspectroscòpia Raman0104 chemical sciencesQuímica de l'estat sòlidCrystallographyChemical physicsCalorimetriaRaman spectroscopyChemical SciencesX-ray crystallographysymbolsRaman spectroscopySingle crystalChemical Science
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