Search results for "53"

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Carta apostòlica, 1754, 05, 10

Carta apostòlica confirmant algunes prerrogatives pactades en el Concordat de 1753 Sense port. ni colofó. Com a tít. el començament del text Sign.: A6 Reclams Text bilingüe a dues col. separades per filet: llatí i castellà

Documents pontificis S. XVIII Obres anteriors al 1800Concordats Espanya 1753 Obres anteriors al 1800

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Erratum to: DYTurbo: fast predictions for Drell–Yan processes

2020

The European physical journal / C 80(5), 440 (2020). doi:10.1140/epjc/s10052-020-7972-0

Drell-Yan processPhysics and Astronomy (miscellaneous)density [parton]Hadrontransverse momentum [resummation]Drell-YanParton01 natural sciencescorrelation [spin]colliding beams [hadron]pair production [lepton]ResummationHadron collidersPhysicsQuantum chromodynamicsprecision measurementhigher-order: 2resummation: transverse momentum2 [higher-order]kinematicsfactorization [cross section]parton: densityParticle physicsspin: correlation530 Physicslepton: pair productionlcsh:Astrophysics10192 Physics Institute530Standard Model0103 physical scienceslcsh:QB460-466quantum chromodynamicslcsh:Nuclear and particle physics. Atomic energy. Radioactivityddc:5303101 Physics and Astronomy (miscellaneous)010306 general physicsEngineering (miscellaneous)Electroweak010308 nuclear & particles physicshadron: colliding beamsHigh Energy Physics::PhenomenologyOrder (ring theory)cross section: factorizationQCDPair productionlcsh:QC770-798High Energy Physics::Experiment2201 Engineering (miscellaneous)Lepton

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DYTurbo: fast predictions for Drell–Yan processes

2019

The European physical journal / C 80(5), 251 (2020). doi:10.1140/epjc/s10052-020-7757-5

Drell-Yan processPhysics and Astronomy (miscellaneous)density [parton]transverse momentum [resummation]Drell-YanParton01 natural sciencesHigh Energy Physics - Phenomenology (hep-ph)correlation [spin]colliding beams [hadron]pair production [lepton]ResummationHadron collidersPhysicsQuantum chromodynamicsprecision measurementhigher-order: 2resummation: transverse momentumDrell–Yan processhep-ph2 [higher-order]High Energy Physics - Phenomenologykinematicsfactorization [cross section]parton: densityPhenomenology (particle physics)Particle physics530 Physicsspin: correlationlepton: pair productionFOS: Physical scienceslcsh:Astrophysics10192 Physics Institute530Standard Modellcsh:QB460-4660103 physical sciencesquantum chromodynamicsddc:530lcsh:Nuclear and particle physics. Atomic energy. Radioactivity010306 general physicsEngineering (miscellaneous)Particle Physics - PhenomenologyElectroweak010308 nuclear & particles physicshadron: colliding beamsHigh Energy Physics::Phenomenologycross section: factorizationQCDPair production[PHYS.HPHE]Physics [physics]/High Energy Physics - Phenomenology [hep-ph]lcsh:QC770-798High Energy Physics::ExperimentLeptonThe European Physical Journal C

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Tevatron Run II combination of the effective leptonic electroweak mixing angle

2018

The Ministry of Science and Innovation and the Consolider-Ingenio 2010 Program and the European Union community Marie Curie Fellowship Contract No. 302103.

Drell-Yan processsemianalytical programsPhysics and Astronomy (miscellaneous)FERMION PAIR PRODUCTIONUPGRADETevatronhadron-colliders01 natural sciencesHigh Energy Physics - ExperimentPhysics Particles & Fieldselectron: pair productionHigh Energy Physics - Experiment (hep-ex)MONTE-CARLOUNIVERSAL MONTE-CARLOELECTROMAGNETIC CALORIMETERDZERO[PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex]HADRON COLLIDERSangular distributionBatavia TEVATRON CollMonte CarloPhysicsscattering [anti-p p]gauge bosonPhysicsElectroweak interactionDrell–Yan processWeinberg anglespontaneous symmetry breaking [electroweak interaction]muon: pair productionPhysical Sciencesmixing angle [electroweak interaction]bosonPHOTOSmass: measured [W]asymmetryParticle physicsFOS: Physical sciencesSEMIANALYTICAL PROGRAMddc:500.2Astronomy & Astrophysicselectroweak interaction: spontaneous symmetry breaking114 Physical sciences530programmingW: mass: measuredStandard Modelanti-p p: colliding beams[ PHYS.HEXP ] Physics [physics]/High Energy Physics - Experiment [hep-ex]hadroproduction [Z0]0103 physical sciencesanti-p p: scatteringddc:530High Energy Physicspair production [electron]pair production [muon]CALORIMETER010306 general physicsQED RADIATIVE-CORRECTIONSQed radiative-corrections; fermion pair production; universal; Monte Carlo; parton distributions; hadron-colliders; electromagnetic; calorimeter;semianalytical programs; E(+)E(-) annihilation; boson; production; D0 detectorGauge bosonBOSON PRODUCTIONMuonScience & Technologyelectroweak interaction: mixing angleAnti-p p: scattering | anti-p p: colliding beams | Z0: hadroproduction | Z0: leptonic decay | electroweak interaction: spontaneous symmetry breaking | electroweak interaction: mixing angle | muon: pair production | W: mass: measured | Weinberg angle | Batavia TEVATRON Coll | angular distribution | electron: pair production | Drell-Yan process | gauge boson | programming | asymmetry | CDF | DZERO | experimental resultsIDENTIFICATION010308 nuclear & particles physicsHigh Energy Physics::PhenomenologyuniversalWeinberg angleZ0: hadroproductionQED RADIATIVE-CORRECTIONS; FERMION PAIR PRODUCTION; UNIVERSAL; MONTE-CARLO; PARTON DISTRIBUTIONS; HADRON COLLIDERS; ELECTROMAGNETIC; CALORIMETER; SEMIANALYTICAL PROGRAM; E(+)E(-) ANNIHILATION; BOSON; PRODUCTION; D0 DETECTORleptonic decay [Z0]E(+)E(-) ANNIHILATIONelectromagneticPARTON DISTRIBUTIONSExperimental High Energy PhysicsZ0: leptonic decayD0 DETECTORCDFHigh Energy Physics::Experimentproductioncolliding beams [anti-p p]Leptonexperimental results

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Drift Time Measurement in the ATLAS Liquid Argon Electromagnetic Calorimeter using Cosmic Muons

2010

The ionization signals in the liquid argon of the ATLAS electromagnetic calorimeter are studied in detail using cosmic muons. In particular, the drift time of the ionization electrons is measured and used to assess the intrinsic uniformity of the calorimeter gaps and estimate its impact on the constant term of the energy resolution. The drift times of electrons in the cells of the second layer of the calorimeter are uniform at the level of 1.3% in the barrel and 2.8% in the endcaps. This leads to an estimated contribution to the constant term of (0.29-0.04+0.05)% in the barrel and (0.54-0.04+0.06)% in the endcaps. The same data are used to measure the drift velocity of ionization electrons …

Drift velocityPhysics - Instrumentation and DetectorsPhysics and Astronomy (miscellaneous)Physics::Instrumentation and DetectorsInstrumentationFOS: Physical sciencesddc:500.2ElectronAstrophysics::Cosmology and Extragalactic AstrophysicsElectromagnetic CalorimeterATLAS; Drift Time Measurement; Cosmic Muons5307. Clean energy01 natural sciencesPartícules (Física nuclear)High Energy Physics - Experiment010305 fluids & plasmasNuclear physicsHigh Energy Physics - Experiment (hep-ex)Atlas (anatomy)Ionization0103 physical sciencesmedicineFysikddc:530High Energy Physics[PHYS.PHYS.PHYS-INS-DET]Physics [physics]/Physics [physics]/Instrumentation and Detectors [physics.ins-det]Cosmic MuonsDetectors and Experimental Techniques010306 general physicsEngineering (miscellaneous)Ciencias ExactasDetectors de radiacióPhysicsCalorimeter (particle physics)010308 nuclear & particles physicsAcceleradors de partículesResolution (electron density)Instrumentation and Detectors (physics.ins-det)ATLASliquid argonElectromagnetic calorimetermedicine.anatomical_structureExperimental High Energy PhysicsDrift Time MeasurementPhysical SciencesComputingMethodologies_DOCUMENTANDTEXTPROCESSINGHigh Energy Physics::ExperimentLHC

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Topoisomerase II{alpha}-dependent and -independent apoptotic effects of dexrazoxane and doxorubicin.

2009

Abstract Coadministration of the iron chelator dexrazoxane reduces by 80% the incidence of heart failure in cancer patients treated with anthracyclines. The clinical application of dexrazoxane is limited, however, because its ability to inhibit topoisomerase IIα (TOP2A) is feared to adversely affect anthracycline chemotherapy, which involves TOP2A-mediated generation of DNA double-strand breaks (DSB). Here, we investigated the apoptotic effects of dexrazoxane and the anthracycline doxorubicin, alone and in combination, in a tumor cell line with conditionally regulated expression of TOP2A. Each drug caused apoptosis that was only partly dependent on TOP2A. Unexpectedly, dexrazoxane was found…

DrugCancer ResearchAnthracyclinemedicine.medical_treatmentmedia_common.quotation_subjectAntineoplastic AgentsApoptosisPharmacologyHistonesAntigens NeoplasmCell Line TumormedicineHumansDoxorubicinAdverse effectPoly-ADP-Ribose Binding Proteinsmedia_commonCaspase 7ChemotherapyChemistryCaspase 3Gene Expression ProfilingCancermedicine.diseaseGlutathioneDNA-Binding ProteinsGene Expression Regulation NeoplasticDNA Topoisomerases Type IIOncologyApoptosisDoxorubicinCancer researchDexrazoxaneTumor Suppressor Protein p53Razoxanemedicine.drugMolecular cancer therapeutics

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Core-crosslinked polymeric micelles: Principles, preparation, biomedical applications and clinical translation

2015

Polymeric micelles (PM) are extensively used to improve the delivery of hydrophobic drugs. Many different PM have been designed and evaluated over the years, and some of them have steadily progressed through clinical trials. Increasing evidence suggests, however, that for prolonged circulation times and for efficient EPR-mediated drug targeting to tumors and to sites of inflammation, PM need to be stabilized, to prevent premature disintegration. Core-crosslinking is among the most popular methods to improve the in vivo stability of PM, and a number of core-crosslinked polymeric micelles (CCPM) have demonstrated promising efficacy in animal models. The latter is particularly true for CCPM in…

DrugDrug targetingMaterials sciencemedia_common.quotation_subjectBiomedical EngineeringMedicine (miscellaneous)Pharmaceutical ScienceNanotechnologyBioengineeringMicelleArticleMaterials Science(all)In vivoGeneral Materials SciencePharmaceutical sciencesPolymermedia_commonMETIS-315279Translation (biology)3. Good healthNanomedicineTargeted drug deliveryIR-99653Drug deliveryNanomedicineCore-crosslinkingEPRMicelleBiotechnologyNano Today

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"Table 40" of "Tuning and test of fragmentation models based on identified particles and precision event shape data."

1996

Compilation of multiplicities of baryons from current LEP I data.

E+ E- --> LAMBDA XE+ E- --> SIGMA(1385P13)- XE+ E- --> SIGMA(1385P13)+ XStrange productionNuclear TheoryHigh Energy Physics::PhenomenologyE+ E- --> OMEGA- X91.2Astrophysics::Cosmology and Extragalactic AstrophysicsE+ E- --> P XMULTInclusiveE+ E- --> XI(1530P13)0 XE+ E- --> DELTA(1232P33)++ XE+ E- ScatteringComputer Science::Programming LanguagesE+ E- --> XI- XHigh Energy Physics::ExperimentE+ E- --> LAMBDA/B0 X

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"Table 1" of "Strange baryon production in Z hadronic decays"

1995

No description provided.

E+ E- --> SIGMA(1385P13)- XE+ E- --> SIGMA(1385P13)+ XE+ E- --> HADRONSE+ E- --> Z0Integrated Cross SectionE+ E- --> SIGMA+ X91.2Cross SectionSIGMULTInclusiveE+ E- --> XIBAR+ XE+ E- --> XI(1530P13)0 XE+ E- ScatteringE+ E- --> SIGMA- XE+ E- --> XI- XExclusiveR measurement

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"Table 1" of "Measurement of Z-pair production in e+ e- collisions and constraints on anomalous neutral gauge couplings"

2009

Measured E+ E- --> Z0 Z0 cross sections.

E+ E- --> Z0 Z0Z ProductionE+ E- ScatteringIntegrated Cross SectionExclusiveCross SectionSIG191.58-206.53

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