0000000001301235

AUTHOR

N. Sato

showing 8 related works from this author

Complex chemistry with complex compounds

2016

In recent years gas-phase chemical studies assisted by physical pre-separation allowed for the investigation of fragile single molecular species by gas-phase chromatography. The latest success with the heaviest group 6 transactinide seaborgium is highlighted. The formation of a very volatile hexacarbonyl compound Sg(CO)6 was observed similarly to its lighter homologues molybdenum and tungsten. The interactions of these gaseous carbonyl complex compounds with quartz surfaces were investigated by thermochromatography. Second-generation experiments are under way to investigate the intramolecular bond between the central metal atom of the complexes and the ligands addressing the influence of re…

PhysicsQC1-999Transactinide elementchemistry.chemical_elementTungsten010402 general chemistry010403 inorganic & nuclear chemistry01 natural sciences0104 chemical sciencesMetalchemistryGroup (periodic table)Computational chemistryMolybdenumChemical physicsvisual_artIntramolecular forceSeaborgium540 ChemistryAtomvisual_art.visual_art_medium570 Life sciences; biologyEPJ Web of Conferences
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The Belle II vertex detector integration

2019

Belle II DEPFET, PXD, and SVD Collaborations: et al.

Nuclear and High Energy PhysicsPhysics::Instrumentation and DetectorsSilicon sensorPhase (waves)Computer Science::Computational Geometry7. Clean energy01 natural scienceslaw.inventionNuclear physicsBelle II; Data acquisition; Pixel detector; Silicon sensor; Strip detector; Vertex detector; Nuclear and High Energy Physics; InstrumentationData acquisitionlaw0103 physical sciencesVertex detectorBelle IIStrip detectorColliderInstrumentationNuclear and High Energy PhysicPhysicsInterconnectionPixel010308 nuclear & particles physicsDetectorBelle II; data acquisition; pixel detector; silicon sensor; strip detector; vertex detectorData acquisitionPixel detectorUpgradeHigh Energy Physics::ExperimentFocus (optics)Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment
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Alignment for the first precision measurements at Belle II

2019

On March 25th 2019, the Belle II detector recorded the first collisions delivered by the SuperKEKB accelerator. This marked the beginning of the physics run with vertex detector. The vertex detector was aligned initially with cosmic ray tracks without magnetic field simultaneously with the drift chamber. The alignment method is based on Millepede II and the General Broken Lines track model and includes also the muon system or primary vertex position alignment. To control weak modes, we employ sensitive validation tools and various track samples can be used as alignment input, from straight cosmic tracks to mass-constrained decays. With increasing luminosity and experience, the alignment is …

QC1-999vertex detectorDetector calibrationBELLECosmic rayprogramming01 natural sciencesNuclear physics0103 physical sciences[PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex][INFO]Computer Science [cs][PHYS.PHYS.PHYS-INS-DET]Physics [physics]/Physics [physics]/Instrumentation and Detectors [physics.ins-det]010306 general physicsPhysicsMuonCOSMIC cancer database010308 nuclear & particles physicsPhysicsDetectordetector: alignmenttracksMagnetic fieldVertex (geometry)cosmic radiationdrift chamberHigh Energy Physics::ExperimentVertex detectorperformance
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Data quality monitors of vertex detectors at the start of the Belle II experiment

2019

The Belle II experiment features a substantial upgrade of the Belle detector and will operate at the SuperKEKB energy-asymmetric e+e− collider at KEK in Tsukuba, Japan. The accelerator completed its first phase of commissioning in 2016, and the Belle II detector saw its first electron-positron collisions in April 2018. Belle II features a newly designed silicon vertex detector based on double-sided strip layers and DEPFET pixel layers. A subset of the vertex detector was operated in 2018 to determine background conditions (Phase 2 operation). The collaboration completed full detector installation in January 2019, and the experiment started full data taking. This paper will report on the fin…

Physics::Instrumentation and DetectorsQC1-999vertex detectorBELLEquality: monitoring01 natural sciences7. Clean energyprogrammingSilicon vertex detectorlaw.inventionNuclear physicssemiconductor detector: pixellaw0103 physical sciencesQuality monitoring[INFO]Computer Science [cs][PHYS.PHYS.PHYS-INS-DET]Physics [physics]/Physics [physics]/Instrumentation and Detectors [physics.ins-det]010306 general physicsCollidernumerical calculationsdetector: designactivity reportPhysics010308 nuclear & particles physicsPhysicsDetectorUpgradeFull dataData qualityPhysics::Accelerator Physicssemiconductor detector: microstripHigh Energy Physics::ExperimentupgradeVertex detectormonitoring: on-lineperformance
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CCDC 699927: Experimental Crystal Structure Determination

2009

Related Article: J.Tsutsumi, T.Sasamori, H.Yoshida, N.Tokitoh, N.Sato, S.Kato, I.Muzikante, O.Neilands|2009|J.Mol.Struct.|920|52|doi:10.1016/j.molstruc.2008.10.021

1-Oxo-2-(1-pyridiniumyl)-1H-inden-3-olateSpace GroupCrystallographyCrystal SystemCrystal StructureCell ParametersExperimental 3D Coordinates
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CCDC 699925: Experimental Crystal Structure Determination

2009

Related Article: J.Tsutsumi, T.Sasamori, H.Yoshida, N.Tokitoh, N.Sato, S.Kato, I.Muzikante, O.Neilands|2009|J.Mol.Struct.|920|52|doi:10.1016/j.molstruc.2008.10.021

Space GroupCrystallographyCrystal SystemCrystal Structure5-Oxo-6-(1-pyridiniumyl)-5H-cyclopenta[b]pyridin-7-olateCell ParametersExperimental 3D Coordinates
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CCDC 699924: Experimental Crystal Structure Determination

2009

Related Article: J.Tsutsumi, T.Sasamori, H.Yoshida, N.Tokitoh, N.Sato, S.Kato, I.Muzikante, O.Neilands|2009|J.Mol.Struct.|920|52|doi:10.1016/j.molstruc.2008.10.021

Space GroupCrystallography5-Oxo-6-(1-pyridiniumyl)-5H-cyclopenta[c]pyridin-7-olateCrystal SystemCrystal StructureCell ParametersExperimental 3D Coordinates
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CCDC 699926: Experimental Crystal Structure Determination

2009

Related Article: J.Tsutsumi, T.Sasamori, H.Yoshida, N.Tokitoh, N.Sato, S.Kato, I.Muzikante, O.Neilands|2009|J.Mol.Struct.|920|52|doi:10.1016/j.molstruc.2008.10.021

Space GroupCrystallography5-Oxo-6-(1-pyridiniumyl)-5H-cyclopenta[c]pyridin-7-olateCrystal SystemCrystal StructureCell ParametersExperimental 3D Coordinates
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