Search results for " Scattering"

showing 10 items of 6840 documents

"Table 8" of "Measurement of inclusive jet and dijet cross sections in proton-proton collisions at 7 TeV centre-of-mass energy with the ATLAS detecto…

2010

Inclusive jet double-differential cross sections in the |rapidity| range 0.8 to 1.2, using a jet resolution R value of 0.6. The three (sys) errors are respectively, the Absolute JES, the Unfolding and the Luminosity uncertainties.

26119402611940Astrophysics::High Energy Astrophysical PhenomenaRapidity Dependence7000.0Astrophysics::Cosmology and Extragalactic AstrophysicsJet ProductionP P --> JET XInclusiveProton-Proton ScatteringHigh Energy Physics::ExperimentD2SIG/DPT/DYRAPTransverse Momentum DependenceDouble Differential Cross SectionAstrophysics::Galaxy Astrophysics
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Mapping an electron wave function by a local electron scattering probe

2015

A technique is developed which allows for the detailed mapping of the electronic wave function in two-dimensional electron gases with low-temperature mobilities up to $15\times {10}^{6}\;{\mathrm{cm}}^{2}\;{{\rm{V}}}^{-1}\;{{\rm{s}}}^{-1}$. Thin ('delta') layers of aluminium are placed into the regions where the electrons reside. This causes electron scattering which depends very locally on the amplitude of the electron wave function at the position of the Al δ-layer. By changing the distance of this layer from the interface we map the shape of the wave function perpendicular to the interface. Despite having a profound effect on the electron mobiliy, the δ-layers do not cause a widening of …

2DEG; Heterostructures; Electron wave function; GaAs/AlGaAs; Electron scatteringFOS: Physical sciencesGeneral Physics and Astronomychemistry.chemical_element02 engineering and technologyElectronQuantum Hall effect01 natural sciencesGaAs/AlGaAsElectron wave functionAluminiumPosition (vector)2DEGMesoscale and Nanoscale Physics (cond-mat.mes-hall)0103 physical sciencesPerpendicularHeterostructuresElectron scattering010306 general physicsWave functionPhysicsCondensed Matter - Mesoscale and Nanoscale PhysicsCondensed matter physics021001 nanoscience & nanotechnologyAmplitudechemistryheterostructureselectron scattering0210 nano-technologyElectron scatteringelectron wave function
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"Table 1" of "Evidence of a broad structure at an invariant mass of 4.32- GeV/c**2 in the reaction e+ e- ---> pi+ pi- psi(2S) measured at BaBar"

2008

The measured c.m. energy dependence of the cross section with statistical errors only.. Bins with no recorded data are shown as a 'dash'.

3.985-7.985E+ E- ScatteringComputer Science::MultimediaE+ E- --> PI+ PI- PSI(3685)Integrated Cross SectionExclusivePsiCross SectionSIG
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Glycerosomes: Use of hydrogenated soy phosphatidylcholine mixture and its effect on vesicle features and diclofenac skin penetration.

2016

In this work, diclofenac was encapsulated, as sodium salt, in glycerosomes containing 10, 20 or 30% of glycerol in the water phase with the aim to ameliorate its topical efficacy. Taking into account previous findings, glycerosome formulation was modified, in terms of economic suitability, using a cheap and commercially available mixture of hydrogenated soy phosphatidylcholine (P90H). P90H glycerosomes were spherical and multilamellar; photon correlation spectroscopy showed that obtained vesicles were ∼131nm, slightly larger and more polydispersed than those made with dipalmitoylphosphatidylcholine (DPPC) but, surprisingly, they were able to ameliorate the local delivery of diclofenac, whic…

3003GlycerolKeratinocytesDiclofenacSwineSkin Absorptionpig skinPharmaceutical Science02 engineering and technology030226 pharmacology & pharmacyDSC03 medical and health scienceschemistry.chemical_compound0302 clinical medicineDiclofenacDrug Delivery SystemsOrgan Culture TechniquesDynamic light scatteringPhosphatidylcholinemedicineGlycerolAnimalsHumansCells CulturedChromatographyhydrogenated phospholipid vesiclesChemistryVesicle(trans)dermal drug delivery; DSC; hydrogenated phospholipid vesicles; keratinocytes; pig skin; rheology; 3003021001 nanoscience & nanotechnology(trans)dermal drug deliveryDipalmitoylphosphatidylcholineSkin penetrationDrug deliveryPhosphatidylcholinesrheologyHydrogenationSoybeans0210 nano-technologymedicine.drugInternational journal of pharmaceutics
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Nanodesign of new self-assembling core-shell gellan-transfersomes loading baicalin and in vivo evaluation of repair response in skin

2017

Gellan nanohydrogel and phospholipid vesicles were combined to incorporate baicalin in new self-assembling core-shell gellan-transfersomes obtained by an easy, scalable method. The vesicles were small in size (~107 nm) and monodispersed (P.I. ≤ 0.24), forming a viscous system (~24 mPa/s) as compared to transfersomes (~1.6 mPa/s), as confirmed by rheological studies. Gellan was anchored to the bilayer domains through cholesterol, and the polymer chains were distributed onto the outer surface of the bilayer, thus forming a core-shell structure, as suggested by SAXS analyses. The optimal carrier ability of core-shell gellan-transfersomes was established by the high deposition of baicalin in th…

3003SwinePharmaceutical ScienceMedicine (miscellaneous)02 engineering and technology01 natural sciencesMicechemistry.chemical_compoundDrug Delivery Systemsmaterials science (all)skin deliveryGeneral Materials ScienceSkinchemistry.chemical_classificationSkin repairSmall-angle X-ray scatteringBilayerVesicleAnti-Inflammatory Agents Non-SteroidalPolysaccharides BacterialPolymer021001 nanoscience & nanotechnologymedicine.anatomical_structureMolecular MedicineFemale0210 nano-technologytransfersomesSkin AbsorptionBiomedical EngineeringgellanBioengineeringAdministration Cutaneous010402 general chemistryIn vivo studiesDermisIn vivoSAXS analysismedicineAnimalsgellan; In vivo studies; rheological studies; SAXS analysis; skin delivery; transfersomes; bioengineering; medicine (miscellaneous); molecular medicine; biomedical engineering; materials science (all); 3003rheological studiesFlavonoidsInflammationWound Healing0104 chemical sciencesAnimals NewbornchemistryLiposomesBiophysicsNanoparticlesBaicalin
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"Table 3" of "Study of the Leptonic Decays of the $Z^0$ Boson"

1990

Statistical errors only.

4.414E+014.752E+0188.28-95.04E+ E- --> MU+ MU-E+ E- ScatteringIntegrated Cross SectionExclusiveCross SectionSIGMuon production
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"Table 8" of "$\Upsilon$ production and nuclear modification at forward rapidity in Pb-Pb collisions at $\mathbf{\sqrt{\textit{s}_{\textbf{NN}}}=5.02…

2021

Nuclear modification factor of $\Upsilon(1\mathrm{S})$ as a function of transverse momentum for the 0–90% centrality interval.

5020.0High Energy Physics::ExperimentUpsilonNuclear ExperimentPb Pb --> UPSI(1S) < MU+ MU- > XTransverse Momentum DependenceLead-Lead ScatteringRAANuclear Modification Factor
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"Table 1" of "$\Upsilon$ production and nuclear modification at forward rapidity in Pb-Pb collisions at $\mathbf{\sqrt{\textit{s}_{\textbf{NN}}}=5.02…

2021

Rapidity-differential yield of $\Upsilon(1\mathrm{S}) \rightarrow \mu^{+}\mu^{-}$ divided by the average nuclear overlap function $\langle T_{\mathrm{AA}} \rangle$ for the 0–90% centrality interval ($\langle T_{\mathrm{AA}} \rangle$ = 6.28 $\pm$ 0.06 mb$^{-1}$).

5020.0InclusiveDN/DYRAPRapidity DependenceUpsilonPb Pb --> UPSI(1S) < MU+ MU- > XLead-Lead Scattering
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"Table 2" of "$\Upsilon$ production and nuclear modification at forward rapidity in Pb-Pb collisions at $\mathbf{\sqrt{\textit{s}_{\textbf{NN}}}=5.02…

2021

Rapidity-differential yield of $\Upsilon(2\mathrm{S}) \rightarrow \mu^{+}\mu^{-}$ divided by the average nuclear overlap function $\langle T_{\mathrm{AA}} \rangle$ for the 0–90% centrality interval ($\langle T_{\mathrm{AA}} \rangle$ = 6.28 $\pm$ 0.06 mb$^{-1}$).

5020.0InclusiveDN/DYRAPRapidity DependenceUpsilonPb Pb --> UPSI(2S) < MU+ MU- > XLead-Lead Scattering
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"Table 5" of "Measurement of the nuclear modification factor for inclusive jets in Pb+Pb collisions at $\sqrt{s_\mathrm{NN}}=5.02$ TeV with the ATLAS…

2018

No description provided.

5020.0InclusiveProton-Proton ScatteringP P --> JETS XRapidity DependenceD2SIG/DPT/DYRAPJet ProductionTransverse Momentum DependenceDouble Differential Cross Section
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