02164nam 2200397z- 450 991057218740332120230221130724.0(CKB)5860000000047273(oapen)https://directory.doabooks.org/handle/20.500.12854/82769(EXLCZ)99586000000004727320202206d2015 |y 0itaurmn|---annantxtrdacontentcrdamediacrrdacarrierNew information subjects in L2 acquisition: evidence from Italian and FinnishFlorenceFirenze University Press20151 electronic resource (152 p.)Biblioteca di Studi di Filologia Moderna88-927-3306-0 Recent work on second language acquisition within the generative framework has pointed out interfaces (syntax-discourse, syntax-semantics, etc.) as a residual domain of vulnerability in L2. Rather than in core syntax, it is at the interface level that the divergence between native and non-native grammars has been shown to be more prominent. In this book the investigation of answering strategies and the focalization of new information subjects, which require access to the syntax-discourse interface, will be pursued. Data is collected through an oral elicitation task on Finnish and Italian, a rather unexplored language pair, in various stages of language development: advanced and intermediate L2 acquisition, L1 under L2 attrition, early bilingualism, child monolingual L1 development.New information subjects in L2 acquisitionlinguisticsbicsscHistorical & comparative linguisticsbicsscLiterature & literary studiesbicsscLiterature: history & criticismbicssclinguisticsHistorical & comparative linguisticsLiterature & literary studiesLiterature: history & criticismDal Pozzo Lenaauth720376BOOK9910572187403321New information subjects in L2 acquisition2932640UNINA03980nam 22007335 450 991103486470332120251013130435.0981-9511-31-310.1007/978-981-95-1131-0(MiAaPQ)EBC32345827(Au-PeEL)EBL32345827(CKB)41640996600041(DE-He213)978-981-95-1131-0(OCoLC)1545493023(EXLCZ)994164099660004120251013d2025 u| 0engurcnu||||||||txtrdacontentcrdamediacrrdacarrierApplicability of No-insulation High-Temperature Superconductor Saddle-Shaped Dipole Magnet to Particle Accelerator /by Geonyoung Kim1st ed. 2025.Singapore :Springer Nature Singapore :Imprint: Springer,2025.1 online resource (174 pages)Springer Theses, Recognizing Outstanding Ph.D. Research,2190-5061981-9511-30-5 Abstract -- 1 INTRODUCTION -- 2 ANALYSIS METHODS FOR SADDLE-SHAPED DIPOLE MAGNET ADOPTING NO-INSULATION TECHNIQUE -- 3 DESIGN, CONSTRUCTION, AND OPERATION OF SADDLE-SHAPED DIPOLE MAGNET -- 4 EXPERIMENTAL RESULTS AND ANALYSIS OF HTS SADDLE-SHAPED DIPOLE MAGNET -- 5 CONCLUSION -- Appendix.This thesis addresses research on the design, fabrication, and operation of the first saddle-shaped dipole magnet for particle accelerators using a no-insulation high-temperature superconducting (HTS) magnet technology. Unlike HTS magnets with various geometries used in other applications, saddle-shaped magnets posed unresolved challenges in analysis and fabrication due to their complex shape. This thesis is the first study to systematically classify these issues and propose detailed solutions for each. Scaling up the techniques used in this research could enable the development of dipole magnets exceeding 20 T, significantly enhancing particle accelerator performance. Institutions such as CERN and INFN-LASA are pursuing high-field HTS magnets, and this study has led to international collaborations, including Horizon Europe and the International Muon Collider Collaboration. This research has opened a new chapter in foundational technology for particle accelerators, which are widely adopted in particle physics, cancer treatment, chemistry, biotechnology, and materials science. Moreover, it addresses major challenges in HTS magnet technology, such as precise estimation of critical current, screening current analysis, and quench repetition experiments and analysis, by defining these problems and presenting viable solutions with experimental validations.Springer Theses, Recognizing Outstanding Ph.D. Research,2190-5061SuperconductorsChemistryMaterialsChemistrySuperconductivitySuperconductorsMagnetic materialsParticle acceleratorsSuperconductorsMaterials ChemistrySuperconductivityMagnetic MaterialsAccelerator PhysicsSuperconductorsChemistry.Materials.Chemistry.Superconductivity.Superconductors.Magnetic materials.Particle accelerators.Superconductors.Materials Chemistry.Superconductivity.Magnetic Materials.Accelerator Physics.541.0421620.112973Kim Geonyoung1852813MiAaPQMiAaPQMiAaPQBOOK9911034864703321Applicability of No-Insulation High-Temperature Superconductor Saddle-Shaped Dipole Magnet to Particle Accelerator4448693UNINA