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WoS	SCOPUS	Document Type	Document Title	Abstract	Authors	Affiliation	ResearcherID (WoS)	AuthorsID (SCOPUS)	Author Email(s)	Journal Name	JCR Abbreviation	ISSN	eISSN	Volume	Issue	WoS Edition	WoS Category	JCR Year	IF	JCR (%)	FWCI ⓘ	FWCI Update Date	WoS Citation	SCOPUS Citation	Keywords (WoS)	KeywordsPlus (WoS)	Keywords (SCOPUS)	KeywordsPlus (SCOPUS)	Language	Publication Year	Publication Date	DOI	JCR Link	DOI Link	WOS Link	SCOPUS Link
○	○	Article ⓘ	Improving of Sensitivity of PbS Quantum Dot Based SWIR Photodetector Using P3HT ⓘ	In this study, we improved the photosensitivity of the lead sulfide quantum dot (PbS QD)-based shortwave infrared (SWIR: 1.0-2.5 mu m) photodetector by blending poly(3-hexylthiophene-2,5-diyl) (P3HT) with PbS QD. The PbS QD used for SWIR photoactive layer showed an absorption peak at 1410 nm. In addition, by using zinc oxide nanoparticles (ZnO NPs) as an interlayer, we obtained the stable current characteristics of our device. To confirm the effectiveness of P3HT on the PbS QD-based SWIR photodetector, we compared the electrical characteristics of a PbS QD-based device with a hybrid P3HT:PbS QD-based device. In the reverse bias region, the current on/off ratio of the PbS QD-based device was 1.3, whereas the on/off ratio of the hybrid P3HT:PbS QD-based device was 2.9; 2.2 times higher than the PbS QD-based device. At -1 V, the on/off ratio of the PbS QD-based device was 1.3 and the on/off ratio of the hybrid P3HT:PbS QD-based device was 3.4; 2.6 times higher than the PbS QD-based device. The fabricated P3HT:PbS QD-based device had the highest on/off ratio when -1 V voltage was applied. ⓘ	Seo, Kyeong-Ho; Jang, Jaewon; Kang, In Man; Bae, Jin-Hyuk ⓘ	Kyungpook Natl Univ, Sch Elect & Elect Engn, Daegu 41566, South Korea; Kyungpook Natl Univ, Sch Elect Engn, Daegu 41566, South Korea ⓘ	ⓘ	57211978931; 57194107504; 7203062678; 35326180700 ⓘ	tjrudgh0826@naver.com;j1jang@knu.ac.kr;imkang@ee.knu.ac.kr;jhbae@ee.knu.ac.kr; ⓘ	MATERIALS ⓘ	MATERIALS ⓘ		1996-1944	14	6	SCIE	CHEMISTRY, PHYSICAL;MATERIALS SCIENCE, MULTIDISCIPLINARY;METALLURGY & METALLURGICAL ENGINEERING;PHYSICS, APPLIED;PHYSICS, CONDENSED MATTER ⓘ	2021	3.748	22.2	0.23	2025-07-30 ⓘ	4	5	photosensitivity; poly(3-hexylthiophene-2; 5-diyl); lead sulfide quantum dots; shortwave infrared photodetector; current on; off ratio ⓘ	ⓘ	Current on/off ratio; Lead sulfide quantum dots; Photosensitivity; Poly(3-hexylthiophene-2,5-diyl); Shortwave infrared photodetector ⓘ	Blending; II-VI semiconductors; Infrared radiation; IV-VI semiconductors; Nanocrystals; Oxide minerals; Photodetectors; Photons; Semiconductor quantum dots; Sulfur compounds; Zinc oxide; ZnO nanoparticles; Absorption peaks; Current characteristic; Electrical characteristic; Photoactive layers; Poly(3-hexylthiophene-2 ,5-diyl); QD-based devices; Short wave infrared; Zinc oxide nanoparticles; Lead compounds ⓘ	English	2021	2021-03	10.3390/ma14061488 ⓘ	바로가기	바로가기	바로가기	바로가기
○	○	Article ⓘ	In-Situ Nano-Auger Probe of Chloride-Ions during CH3NH3PbI3-xClx Perovskite Formation ⓘ	Organo-halide perovskite solar cells (PSCs) have emerged as next-generation photovoltaics, owing to their high power-conversion efficiency (PCE), lower production cost, and high flexibility. ABX(3)-structured methylammonium lead triiodide (CH3NH3PbI3 or MAPbI(3)) perovskite is a widely studied light-absorbing material in PSCs. Interestingly, a small amount of chlorine incorporation into MAPbI(3) increases charge carrier diffusion lengths (from 129 nm to 1069 nm), which enables planar structured PSCs with high PCEs. However, existence of chloride ions in the final perovskite film is still under debate. Contrastingly, few studies reported a negligible amount or absence of chloride ions in the final film, while others reported detection of chloride ions in the final film. Herein, we observed the microstructure and chlorine content of MAPbI(3-x)Cl(x) thin films with increasing temperature via an in-situ nano-Auger spectroscopy and in-situ scanning electron microscopic analysis. The relative precipitation of MAPbI(3-x)Cl(x) films occur at lower temperature and MAPbI(3-x)Cl(x) grains grow faster than those of MAPbI(3) grains. Local concentrations of chlorine at intragrain and the vicinity of grain boundary were analyzed to understand the behavior and role of the chloride ions during the microstructural evolution of the MAPbI(3-x)Cl(x) films. ⓘ	Vidyasagar, Devthade; Yun, Yong-Han; Shin, Seunghak; Jung, Jina; Park, Woosung; Lee, Jin-Wook; Han, Gill Sang; Ko, Changhyun; Lee, Sangwook ⓘ	Kyungpook Natl Univ, Sch Mat Sci & Engn, Daeug 41566, South Korea; Sookmyung Womens Univ, Div Mech Syst Engn, Seoul 04310, South Korea; Sookmyung Womens Univ, Inst Adv Mat & Syst, Seoul 04310, South Korea; Sungkyunkwan Univ, SKKU Adv Inst Nanotechnol SAINT, Suwon 16419, South Korea; Sungkyunkwan Univ, Dept Nanoengn, Suwon 16419, South Korea; Sungkyunkwan Univ, Sch Adv Mat Sci & Engn, Suwon 440746, South Korea; Sookmyung Womens Univ, Dept Appl Phys, Coll Engn, Seoul 04310, South Korea ⓘ	Han, Gill Sang/P-8395-2015; Lee, Sangwook/O-9166-2015; Vidyasagar, Devthade/O-3930-2015; JUNG, Jina/HMD-1392-2023; Lee, Jin-Wook/AAO-4353-2020 ⓘ	57201674442; 57204805099; 57194010651; 57222277455; 35796311800; 56180229400; 36463511300; 55738847800; 57203597324 ⓘ	vidyasagar.devtade@gmail.com;2007037233@knu.ac.kr;seunghak@knu.ac.kr;joan219@knu.ac.kr;wpark@sookmyung.ac.kr;jw.lee@skku.edu;hangillsang@skku.edu;cko@sookmyung.ac.kr;wook2@knu.ac.kr; ⓘ	MATERIALS ⓘ	MATERIALS ⓘ		1996-1944	14	5	SCIE	CHEMISTRY, PHYSICAL;MATERIALS SCIENCE, MULTIDISCIPLINARY;METALLURGY & METALLURGICAL ENGINEERING;PHYSICS, APPLIED;PHYSICS, CONDENSED MATTER ⓘ	2021	3.748	22.2	0.28	2025-07-30 ⓘ	5	6	perovskite; MAPbI(3-x)Cl(x); nano-auger ⓘ	ⓘ	MAPbI<sub>3-x</sub>Cl<sub>x</sub> ; Nano-auger; Perovskite ⓘ	Augers; Chlorine; Chlorine compounds; Conversion efficiency; Grain boundaries; Ions; Perovskite; Perovskite solar cells; Scanning electron microscopy; Solar power generation; Thin films; Absorbing materials; Auger spectroscopy; Carrier diffusion length; Detection of chlorides; High power conversion; Increasing temperatures; Lower temperatures; Planar structured; Lead compounds ⓘ	English	2021	2021-03	10.3390/ma14051102 ⓘ	바로가기	바로가기	바로가기	바로가기
○	○	Review ⓘ	Ionic Liquid Electrolytes for Electrochemical Energy Storage Devices ⓘ	For decades, improvements in electrolytes and electrodes have driven the development of electrochemical energy storage devices. Generally, electrodes and electrolytes should not be developed separately due to the importance of the interaction at their interface. The energy storage ability and safety of energy storage devices are in fact determined by the arrangement of ions and electrons between the electrode and the electrolyte. In this paper, the physicochemical and electrochemical properties of lithium-ion batteries and supercapacitors using ionic liquids (ILs) as an electrolyte are reviewed. Additionally, the energy storage device ILs developed over the last decade are introduced. ⓘ	Kim, Eunhwan; Han, Juyeon; Ryu, Seokgyu; Choi, Youngkyu; Yoo, Jeeyoung ⓘ	Kyungpook Natl Univ, Sch Energy Engn, Daegu 41566, South Korea ⓘ	; Yoo, Jeeyoung/AAH-1359-2019 ⓘ	57221643305; 57222146622; 57192435552; 57222156597; 56046607500 ⓘ	eunhwan93@knu.ac.kr;gkswnus@knu.ac.kr;waw1991@knu.ac.kr;chokyis32@knu.ac.kr;jyoo@knu.ac.kr; ⓘ	MATERIALS ⓘ	MATERIALS ⓘ		1996-1944	14	14	SCIE	CHEMISTRY, PHYSICAL;MATERIALS SCIENCE, MULTIDISCIPLINARY;METALLURGY & METALLURGICAL ENGINEERING;PHYSICS, APPLIED;PHYSICS, CONDENSED MATTER ⓘ	2021	3.748	22.2	1.18	2025-07-30 ⓘ	56	62	ionic liquids; supercapacitor; lithium-ion battery; electrolyte ⓘ	GEL POLYMER ELECTROLYTE; CARBIDE-DERIVED CARBON; ELECTRICAL DOUBLE-LAYER; HIGH-TEMPERATURE; COMBINED-HEAT; ENVIRONMENTAL-IMPACT; MELTING BEHAVIOR; GRAPHENE OXIDE; REDOX COUPLE; THIN-FILM ⓘ	Electrolyte; Ionic liquids; Lithium-ion battery; Supercapacitor ⓘ	Electrolytes; Energy storage; Ionic liquids; Lithium-ion batteries; Physicochemical properties; Supercapacitor; Electrochemical energy storage devices; Ionic liquid (ils); Ionic liquid electrolytes; Storage abilities; Electrochemical electrodes ⓘ	English	2021	2021-07	10.3390/ma14144000 ⓘ	바로가기	바로가기	바로가기	바로가기
○	○	Article ⓘ	Numerical Analysis of Shear and Particle Crushing Characteristics in Ring Shear System Using the PFC²D ⓘ	The shear and particle crushing characteristics of the failure plane (or shear surface) in catastrophic mass movements are examined with a ring shear apparatus, which is generally employed owing to its suitability for large deformations. Based on results of previous experiments on waste materials from abandoned mine deposits, we employed a simple numerical model based on ring shear testing using the particle flow code (PFC2D). We examined drainage, normal stress, and shear velocity dependent shear characteristics of landslide materials. For shear velocities of 0.1 and 100 mm/s and normal stress (NS) of 25 kPa, the numerical results are in good agreement with those obtained from experimental results. The difference between the experimental and numerical results of the residual shear stress was approximately 0.4 kPa for NS equal to 25 kPa and 0.9 kPa for NS equal to 100 kPa for both drained and undrained condition. In addition, we examined particle crushing effect during shearing using the frictional work concept in PFC. We calculated the work done by friction at both peak and residual shear stresses, and then used the results as crushing criteria in the numerical analysis. The frictional work at peak and the residual shear stresses was ranged from 303 kPa center dot s to 2579 kPa center dot s for given drainage and normal stress conditions. These results showed that clump particles were partially crushed at peak shear stress, and further particle crushing with respect to the production of finer in shearing was recorded at residual shear stress at the shearing plane. ⓘ	Jeong, Sueng-Won; Kighuta, Kabuyaya; Lee, Dong-Eun; Park, Sung-Sik ⓘ	Korea Inst Geosci & Mineral Resources, Geol Environm Div, Daejeon 34132, South Korea; Kyungpook Natl Univ, Dept Civil Engn, 80 Daehakro, Daegu 41566, South Korea; Kyungpook Natl Univ, Dept Architectural Engn, 80 Daehakro, Daegu 41566, South Korea ⓘ	ⓘ	35069425600; 57194062365; 56605563300; 36241850300 ⓘ	swjeong@kigam.re.kr;dankabuyaya@knu.ac.kr;dolee@knu.ac.kr;sungpark@knu.ac.kr; ⓘ	MATERIALS ⓘ	MATERIALS ⓘ		1996-1944	14	1	SCIE	CHEMISTRY, PHYSICAL;MATERIALS SCIENCE, MULTIDISCIPLINARY;METALLURGY & METALLURGICAL ENGINEERING;PHYSICS, APPLIED;PHYSICS, CONDENSED MATTER ⓘ	2021	3.748	22.2	0.43	2025-07-30 ⓘ	7	8	residual shear stress; particle crushing; ring shear test; particle flow code (PFC2D); frictional work ⓘ	DISTINCT ELEMENT MODEL; WASTE ROCK MATERIALS; GRANULAR-MATERIALS; BEHAVIOR; STRENGTH; DISPLACEMENT; FORMULATION; APPARATUS; PRESSURE; SANDS ⓘ	Frictional work; Particle crushing; Particle flow code (PFC<sup>2D</sup>); Residual shear stress; Ring shear test ⓘ	Abandoned mines; Crushing; Friction; Numerical analysis; Rings (components); Shear stress; Shearing; Shearing machines; Structural geology; Frictional work; Numerical results; Particle crushing; Particle flow code; Peak shear stress; Shear characteristics; Shear velocities; Undrained conditions; Shear flow ⓘ	English	2021	2021-01	10.3390/ma14010229 ⓘ	바로가기	바로가기	바로가기	바로가기
○	○	Article ⓘ	Potential Application of Pin-to-Liquid Dielectric Barrier Discharge Structure in Decomposing Aqueous Phosphorus Compounds for Monitoring Water Quality ⓘ	Here, we proposed a pin-to-liquid dielectric barrier discharge (DBD) structure that used a water-containing vessel body as a dielectric barrier for the stable and effective treatment of aqueous solutions in an open atmosphere. To obtain an intense pin-to-liquid alternating current discharge using a dielectric barrier, discharge characteristics, including the area and shape of a ground-plate-type electrode, were investigated after filling the vessel with equivalent amounts of water. Consequently, as the area of the ground electrode increased, the discharge current became stronger, and its timing became faster. Moreover, we proposed that the pin-to-liquid DBD reactor could be used to decompose phosphorus compounds in water in the form of phosphate as a promising pretreatment method for monitoring total phosphorus in water. The decomposition of phosphorus compounds using the pin-to-liquid DBD reactor demonstrated excellent performance-comparable to the thermochemical pretreatment method-which could be a standard pretreatment method for decomposing phosphorus compounds in water. ⓘ	Bae, Gyu Tae; Kim, Jae Young; Kim, Do Yeob; Jung, Eun Young; Jang, Hyo Jun; Park, Choon-Sang; Jang, Hyeseung; Lee, Dong Ho; Lee, Hyung-Kun; Tae, Heung-Sik ⓘ	Kyungpook Natl Univ, Coll IT Engn, Sch Elect & Elect Engn, Daegu 41566, South Korea; Elect & Telecommun Res Inst ETRI, ICT Creat Res Lab, Daejeon 34129, South Korea; Kansas State Univ, Coll Engn, Dept Elect & Comp Engn, Manhattan, KS 66506 USA; Kyungpook Natl Univ, Sch Elect Engn, Coll IT Engn, Daegu 41566, South Korea ⓘ	Kim, Jinwoo/NQF-6310-2025; Lee, Hyung-Kun/AAZ-2442-2021 ⓘ	57202369078; 57205191453; 19337736800; 57203199724; 57207956623; 16025295400; 57782068400; 55649570731; 55706818600; 7006298844 ⓘ	doctor047@knu.ac.kr;jyk@knu.ac.kr;nanodykim@etri.re.kr;eyjung@knu.ac.kr;bs00201@knu.ac.kr;purplepcs@ksu.edu;sophia9733@gmail.com;dhlee@ee.knu.ac.kr;hklee@etri.re.kr;hstae@ee.knu.ac.kr; ⓘ	MATERIALS ⓘ	MATERIALS ⓘ		1996-1944	14	24	SCIE	CHEMISTRY, PHYSICAL;MATERIALS SCIENCE, MULTIDISCIPLINARY;METALLURGY & METALLURGICAL ENGINEERING;PHYSICS, APPLIED;PHYSICS, CONDENSED MATTER ⓘ	2021	3.748	22.2	0.36	2025-07-30 ⓘ	5	5	atmospheric pressure air plasma; phosphorus compound decomposition; pin-to-liquid dielectric barrier discharge; pin-to-liquid discharge; water quality monitoring ⓘ	CONTINUOUS-FLOW ANALYSIS; NONTHERMAL PLASMA; NATURAL-WATERS; TOTAL NITROGEN ⓘ	Atmospheric pressure air plasma; Phosphorus compound decomposition; Pin-to-liquid dielectric barrier discharge; Pin-to-liquid discharge; Water quality monitoring ⓘ	Atmospheric pressure; Decomposition; Dielectric devices; Dielectric materials; Electric discharges; Electrodes; Liquids; Phosphorus compounds; Water quality; Air plasmas; Atmospheric pressure air plasma; Atmospheric-pressure airs; Compound decomposition; Liquid discharge; Phosphorus compound decomposition; Pin-to-liquid dielectric barrier discharge; Pin-to-liquid discharge; Pretreatment methods; Water quality monitoring; Flow control ⓘ	English	2021	2021-12	10.3390/ma14247559 ⓘ	바로가기	바로가기	바로가기	바로가기
○	○	Article ⓘ	Preliminary Animal Study on Bone Formation Ability of Commercialized Particle-Type Bone Graft with Increased Operability by Hydrogel ⓘ	The purpose of this study was to evaluate the bone-generating ability of a new bovine-derived xenograft (S1-XB) containing hydrogel. For control purposes, we used Bio-Oss and Bone-XB bovine-derived xenografts. S1-XB was produced by mixing Bone-XB and hydrogel. Cell proliferation and differentiation studies were performed to assess cytotoxicities and cell responses. For in vivo study, 8 mm-sized cranial defects were formed in 16 rats, and then the bone substitutes were transplanted into defect sites in the four study groups, that is, a Bio-Oss group, a Bone-XB group, an S1-XB group, and a control (all n = 4); in the control group defects were left empty. Eight weeks after surgery, new bone formation areas were measured histomorphometrically. In the cell study, extracts of Bio-Oss, Bone-XB, and S1-XB showed good results in terms of the osteogenic differentiation of human mesenchymal stem cells (hMSCs) and no cytotoxic reaction was evident. No significant difference was observed between mean new bone areas in the Bio-Oss (36.93 +/- 4.27%), Bone-XB (35.07 +/- 3.23%), and S1-XB (30.80 +/- 6.41%) groups, but new bone area was significantly smaller in the control group (18.73 +/- 5.59%) (p < 0.05). Bovine-derived bone graft material containing hydrogel (S1-XB) had a better cellular response and an osteogenic effect similar to Bio-Oss. ⓘ	Kim, So-Yeun; Lee, You-Jin; Cho, Won-Tak; Hwang, Su-Hyun; Heo, Soon-Chul; Kim, Hyung-Joon; Huh, Jung-Bo ⓘ	Kyungpook Natl Univ, Dept Prosthodont, Dent Hosp, Daegu 41940, South Korea; Pusan Natl Univ, Sch Dent, Educ & Res Team Life Sci Dent, Dept Prosthodont,Dent & Life Sci Inst, Yangsan 50612, South Korea; Pusan Natl Univ, Sch Dent, Dent & Life Sci Inst, Dept Oral Physiol,Periodontal Dis Signaling Netwo, Yangsan 50612, South Korea ⓘ	; Kim, Hyung Joon/ABD-3143-2020 ⓘ	57190972249; 57230996800; 57209301250; 57219562713; 36164106800; 57102658200; 8424312600 ⓘ	soyeunkim179@gmail.com;nicejin17@naver.com;joonetak@hanmail.net;hsh2942@hanmail.net;snchlheo@gmail.com;hjoonkim@pusan.ac.kr;neoplasia96@hanmail.net; ⓘ	MATERIALS ⓘ	MATERIALS ⓘ		1996-1944	14	16	SCIE	CHEMISTRY, PHYSICAL;MATERIALS SCIENCE, MULTIDISCIPLINARY;METALLURGY & METALLURGICAL ENGINEERING;PHYSICS, APPLIED;PHYSICS, CONDENSED MATTER ⓘ	2021	3.748	22.2	0.71	2025-07-30 ⓘ	7	10	bone regeneration; bone substitute; bovine-derived xenograft; hydrogel ⓘ	BOVINE BONE; CHIN BONE; AUGMENTATION; DEFECTS; MATRIX; DELIVERY; REGENERATION; TEMPERATURE; SUBSTITUTE; IMPLANTS ⓘ	Bone regeneration; Bone substitute; Bovine-derived xenograft; Hydrogel ⓘ	Cell culture; Cell proliferation; Defects; Hydrogels; Mammals; Stem cells; Bone graft materials; Bone substitutes; Cellular response; Control purpose; Cranial defects; Human mesenchymal stem cells (hMSCs); Osteogenic differentiation; Osteogenic effects; Bone ⓘ	English	2021	2021-08	10.3390/ma14164464 ⓘ	바로가기	바로가기	바로가기	바로가기
○	○	Article ⓘ	Role of Coating Processes on the Corrosion Kinetics and Mechanism of Zinc in Artificial Seawater ⓘ	Zinc (Zn) coating is being used to protect steel structures from corrosion. There are different processes to deposit the coating onto a steel substrate. Therefore, in the present study, a 100 mu m thick Zn coating was deposited by arc and plasma arc thermal spray coating processes, and the corrosion resistance performance was evaluated in artificial seawater. Scanning electron microscopy (SEM) results showed that the arc thermal spray coating exhibited splats and inflight particles, whereas plasma arc spraying showed a uniform and dense morphology. When the exposure periods were extended up to 23 d, the corrosion resistance of the arc as well as the plasma arc thermal spray coating increased considerably. This is attributed to the blocking characteristics of the defects by the stable hydrozincite (Zn-5(OH)(6)(CO3)(2)). ⓘ	Singh, Jitendra Kumar; Mandal, Soumen; Adnin, Raihana Jannat; Lee, Han-Seung; Yang, Hyun-Min ⓘ	Hanyang Univ, Innovat Durable Bldg & Infrastruct Res Ctr, 55 Hanyangdaehak Ro, Ansan 15588, South Korea; Kyungpook Natl Univ, Intelligent Construct Automat Ctr, 80 Daehak Ro, Daegu 41566, South Korea; Hanyang Univ, Dept Architectural Engn, 55 Hanyangdaehak Ro, Ansan 15588, South Korea ⓘ	Singh, Jitendra/AAU-6579-2021; Adnin, Jannat/GSN-0137-2022; Mandal, Soumen/AAB-3917-2021; Lee, Han-Seung/E-9087-2013 ⓘ	57197846307; 57214752240; 57366792600; 57956643400; 56097115000 ⓘ	jk200386@hanyang.ac.kr;sou.chm@gmail.com;jannat_adnin@yahoo.com;ercleehs@hanyang.ac.kr;yhm04@hanyang.ac.kr; ⓘ	MATERIALS ⓘ	MATERIALS ⓘ		1996-1944	14	23	SCIE	CHEMISTRY, PHYSICAL;MATERIALS SCIENCE, MULTIDISCIPLINARY;METALLURGY & METALLURGICAL ENGINEERING;PHYSICS, APPLIED;PHYSICS, CONDENSED MATTER ⓘ	2021	3.748	22.2	0.64	2025-07-30 ⓘ	10	10	zinc; coating; corrosion; thermal spray; electrochemical impedance spectroscopy; scanning electron microscope ⓘ	ELECTROCHEMICAL IMPEDANCE SPECTROSCOPY; INITIAL ATMOSPHERIC CORROSION; GALVANIZED STEEL; MILD-STEEL; SPRAYED COATINGS; NACL; BEHAVIOR; EIS; ALUMINUM; ZN ⓘ	Coating; Corrosion; Electrochemical impedance spectroscopy; Scanning electron microscope; Thermal spray; Zinc ⓘ	Corrosion resistance; Corrosion resistant coatings; Electrochemical corrosion; Electrochemical impedance spectroscopy; Scanning electron microscopy; Seawater corrosion; Steel corrosion; Zinc coatings; Artificial seawater; Corrosion kinetics; Corrosion mechanisms; Electrochemical-impedance spectroscopies; Kinetics and mechanism; Plasma arc; Spray coating process; Steel substrate; Thermal spray coatings; Thermalspray; Morphology ⓘ	English	2021	2021-12	10.3390/ma14237464 ⓘ	바로가기	바로가기	바로가기	바로가기
○	○	Article ⓘ	Scattering Mechanisms and Suppression of Bipolar Diffusion Effect in Bi2Te2.85Se0.15Ix Compounds ⓘ	We investigated the anisotropic thermoelectric properties of the Bi2Te2.85Se0.15Ix (x = 0.0, 0.1, 0.3, 0.5 mol.%) compounds, synthesized by ball-milling and hot-press sintering. The electrical conductivities of the Bi2Te2.85Se0.15Ix were significantly improved by the increase of carrier concentration. The dominant electronic scattering mechanism was changed from the mixed (T = 420 K) for pristine compound (x = 0.0) to the acoustic phonon scattering by the iodine doping. The Hall mobility was also enhanced with the increasing carrier concentration. The enhancement of Hall mobility was caused by the increase of the mean free path of the carrier from 10.8 to 17.7 nm by iodine doping, which was attributed to the reduction of point defects without the meaningful change of bandgap energy. From the electron diffraction patterns, a lattice distortion was observed in the iodine doped compounds. The modulation vector due to lattice distortion increased with increasing iodine concentration, indicating the shorter range lattice distortion in real space for the higher iodine concentration. The bipolar thermal conductivity was suppressed, and the effective masses were increased by iodine doping. It suggests that the iodine doping minimizes the ionization scattering giving rise to the suppression of the bipolar diffusion effect, due to the prohibition of the Bi-Te1 antisite defect, and induces the lattice distortion which decreases lattice thermal conductivity, resulting in the enhancement of thermoelectric performance. ⓘ	Kim, Jin Hee; Back, Song Yi; Yun, Jae Hyun; Lee, Ho Seong; Rhyee, Jong-Soo ⓘ	Kyung Hee Univ, Dept Appl Phys, Integrated Educ Inst Frontier Sci & Technol BK21, Yongin 17104, South Korea; Kyung Hee Univ, Inst Nat Sci, Yongin 17104, South Korea; Kyungpook Natl Univ, Sch Mat Sci & Engn, Daegu 41566, South Korea ⓘ	; Rhyee, Jong-Soo/AAK-7173-2020; Back, Song Yi/ABP-6733-2022; KIM, YOUNG JIN/E-9374-2011 ⓘ	57194613785; 57196079077; 57189224964; 55706810400; 6603282348 ⓘ	jinheekim@khu.ac.kr;song2b@khu.ac.kr;ataxtr@hanmail.net;hs.lee@knu.ac.kr;jsrhyee@khu.ac.kr; ⓘ	MATERIALS ⓘ	MATERIALS ⓘ		1996-1944	14	6	SCIE	CHEMISTRY, PHYSICAL;MATERIALS SCIENCE, MULTIDISCIPLINARY;METALLURGY & METALLURGICAL ENGINEERING;PHYSICS, APPLIED;PHYSICS, CONDENSED MATTER ⓘ	2021	3.748	22.2	0.92	2025-07-30 ⓘ	13	13	bismuth telluride; iodine doping; lattice distortion; scattering mechanism; phonon scattering ⓘ	ⓘ	Bismuth telluride; Iodine doping; Lattice distortion; Phonon scattering; Scattering mechanism ⓘ	Ball milling; Bismuth compounds; Carrier concentration; Hall mobility; Hole mobility; Ionization; Point defects; Selenium compounds; Sintering; Tellurium compounds; Thermal conductivity; Thermoelectricity; Vector spaces; Acoustic-phonon scattering; Electrical conductivity; Iodine concentration; Ionization scattering; Lattice thermal conductivity; Scattering mechanisms; Thermoelectric performance; Thermoelectric properties; Iodine compounds ⓘ	English	2021	2021-03	10.3390/ma14061564 ⓘ	바로가기	바로가기	바로가기	바로가기
○	○	Review ⓘ	Strive to Reduce Slurry Erosion and Cavitation in Pumps through Flow Modifications, Design Optimization and Some Other Techniques: Long Term Impact on Process Industry ⓘ	Centrifugal pumps are being widely used in various industries for moving fluids that carry solids through pipelines where the need of head and flow rate is not high. Slurry erosion and cavitation are an extremely complex and not yet fully understood phenomenon that occur in centrifugal pumps; however, these undesirable phenomena can be reduced to a certain extent. Appropriate design and development of experiments is required to reasonably predict slurry erosion and cavitation. However, CFD methodology complements analytical solutions and experiments whenever testing of equipment has limitations. The current paper highlights the various slurry erosion and cavitation reduction techniques utilized by different researchers. Economic analysis conducted for a case study relevant to centrifugal pump (CP) usage in Pakistan shows that an 8% enhancement in pump efficiency can reduce the life cycle cost to about 17.6%, which could save up to USD 4281 for a single pump annually in Pakistan. ⓘ	Noon, Adnan Aslam; Jabbar, Absaar Ul; Koten, Hasan; Kim, Man-Hoe; Ahmed, Hafiz Waqar; Mueed, Umair; Shoukat, Ahmad Adnan; Anwar, Bilal ⓘ	FET Int Islamic Univ, Dept Mech Engn, Islamabad 44000, Pakistan; Natl Univ Sci & Technol NUST, Res Ctr Modelling & Simulat, Islamabad 44000, Pakistan; Istanbul Medeniyet Univ, Dept Mech Engn, TR-34700 Istanbul, Turkey; Kyungpook Natl Univ, Sch Mech Engn, Daegu 41566, South Korea; Kyungpook Natl Univ, IEDT, Daegu 41566, South Korea; Sungkyunkwan Univ, Dept Mech Engn, Nat Sci Campus 16419, Suwon 2066, Gyeonggi Do, South Korea; Univ Engn & Technol, Dept Mech Engn, Taxila 47050, Pakistan; Inst Space Technol, Dept Mech Engn, Islamabad 44000, Pakistan ⓘ	Koten, Hasan/AAG-4611-2019; KOTEN, Hasan/AAG-4611-2019; Ahmad, Hafiz/I-1914-2019 ⓘ	57190281449; 57221677163; 36157946800; 55686310000; 57191645560; 57221672394; 57201023620; 57221672476 ⓘ	adnan.aslam@iiu.edu.pk;absaar@rcms.nust.edu.pk;hasan.koten@medeniyet.edu.tr;manhoe.kim@knu.ac.kr;waqar543@skku.edu;umair.mueed@gmail.com;ahmad.adnan@ist.edu.pk;bilal.bsme353@iiu.edu.pk; ⓘ	MATERIALS ⓘ	MATERIALS ⓘ		1996-1944	14	3	SCIE	CHEMISTRY, PHYSICAL;MATERIALS SCIENCE, MULTIDISCIPLINARY;METALLURGY & METALLURGICAL ENGINEERING;PHYSICS, APPLIED;PHYSICS, CONDENSED MATTER ⓘ	2021	3.748	22.2	0.42	2025-07-30 ⓘ	14	22	centrifugal pump; erosion; cavitation; CFD; process industry ⓘ	ⓘ	Cavitation; Centrifugal pump; CFD; Erosion; Process industry ⓘ	Cavitation; Centrifugal pumps; Computational fluid dynamics; Economic analysis; Erosion; Life cycle; Appropriate designs; CFD methodologies; Design optimization; Lifecycle costs; Long-term impacts; Process industries; Pump efficiency; Reduction techniques; Costs ⓘ	English	2021	2021-02	10.3390/ma14030521 ⓘ	바로가기	바로가기	바로가기	바로가기
○	○	Article ⓘ	Torsional Resistance of Heat-Treated Nickel-Titanium Instruments under Different Temperature Conditions ⓘ	This study compared the torsional resistance of heat-treated nickel-titanium (NiTi) instruments under different temperature conditions. Four thermomechanically treated single-use NiTi rotary instruments were selected for this study: OneShape (OS), OneCurve (OC), WaveOne Gold (WOG) and HyFlex EDM (HFE). Each instrument was further subdivided by temperature into 2 subgroups. Maximum torque and the distortion angle until fracture occurred were evaluated. Differential scanning calorimetry analysis was performed to measure the phase transformation temperature. Statistical analysis was performed using a two-way ANOVA and t-test (p < 0.05). Fractured fragments were observed using scanning electron microscopy (SEM). The two-way ANOVA showed no significant differences for different temperature conditions. At both room (RT) and body temperature (BT), OS was predominantly austenite while HFE was martensite. OC and WOG were predominantly martensite at RT and mixed phase at BT. At BT, more than half of WOG was martensite, while half of OC was austenite. SEM examination showed no topographical differences between instruments in different temperature groups. In relation to a limitation of this study, there was no difference in torsional resistance of NiTi rotary instruments between the BT and RT conditions. This implies that clinicians do not need to consider a decrease of torsional resistance of heat-treated NiTi instruments at BT. ⓘ	Jo, Hyo Jin; Kwak, Sang Won; Kim, Hyeon-Cheol; Kim, Sung Kyo; Ha, Jung-Hong ⓘ	Kyungpook Natl Univ, Sch Dent, Dept Conservat Dent, Daegu 41940, South Korea; Pusan Natl Univ, Sch Dent, Dent Res Inst, Dept Conservat Dent, Yangsan 50612, South Korea ⓘ	Kim, Hyeon/AAQ-9057-2021 ⓘ	57264333700; 54787794900; 35746710200; 34770864400; 55549831900 ⓘ	sallyes2004@naver.com;endokwak@pusan.ac.kr;golddent@pusan.ac.kr;skykim@knu.ac.kr;endoking@knu.ac.kr; ⓘ	MATERIALS ⓘ	MATERIALS ⓘ		1996-1944	14	18	SCIE	CHEMISTRY, PHYSICAL;MATERIALS SCIENCE, MULTIDISCIPLINARY;METALLURGY & METALLURGICAL ENGINEERING;PHYSICS, APPLIED;PHYSICS, CONDENSED MATTER ⓘ	2021	3.748	22.2	0.5	2025-07-30 ⓘ	6	7	body temperature; C-wire; differential scanning calorimetry; electrical discharge machining; gold-wire; heat-treated nickel-titanium file; torsional resistance ⓘ	ROTARY ENDODONTIC INSTRUMENTS; PHASE-TRANSFORMATION BEHAVIOR; CYCLIC FATIGUE; MECHANICAL-PROPERTIES; SEM OBSERVATIONS; FILES ⓘ	Body temperature; C-wire; Differential scanning calorimetry; Electrical discharge machin-ing; Gold-wire; Heat-treated nickel-titanium file; Torsional resistance ⓘ	Analysis of variance (ANOVA); Austenite; Binary alloys; Differential scanning calorimetry; Heat resistance; Martensite; Nickel; Scanning electron microscopy; Titanium; Titanium alloys; Titanium metallography; Body temperature; Maximum torque; Nickel titanium; Phase transformation temperature; Sem examinations; Temperature conditions; Torsional resistance; Two-way ANOVA; Nickel metallography ⓘ	English	2021	2021-09	10.3390/ma14185295 ⓘ	바로가기	바로가기	바로가기	바로가기
○	○	Article ⓘ	Transparent Polyaniline Thin Film Synthesized Using a Low-Voltage-Driven Atmospheric Pressure Plasma Reactor ⓘ	The use of low-voltage-driven plasma in atmospheric pressure (AP) plasma polymerization is considered as a simple approach to reducing the reactivity of the monomer fragments in order to prevent excessive cross-linking, which would have a negative effect on the structural properties of the polymerized thin films. In this study, AP-plasma polymerization can be processed at low voltage by an AP-plasma reactor with a wire electrode configuration. A bare tungsten wire is used as a powered electrode to initiate discharge in the plasma area (defined as the area between the wide glass tube and the substrate stand), thus allowing plasma polymerization to proceed at a lower voltage compared to other AP-plasma reactors with dielectric barriers. Thus, transparent polyaniline (PANI) films are successfully synthesized. The surface morphology, roughness, and film thickness of the PANI films are characterized by field emission scanning electron microscopy and atomic force microscopy. Thus, the surface of the polymerized film is shown to be homogenous, smooth, and flat, with a low surface roughness of 1 nm. In addition, the structure and chemical properties of the PANI films are investigated by Fourier transform infrared spectroscopy, thus revealing an improvement in the degree of polymerization, even though the process was performed at low voltage. ⓘ	Kim, Jae Young; Iqbal, Shahzad; Jang, Hyo Jun; Jung, Eun Young; Bae, Gyu Tae; Park, Choon Sang; Shin, Bhum Jae; Tae, Heung Sik ⓘ	Kyungpook Natl Univ, Coll IT Engn, Sch Elect & Elect Engn, Daegu 41566, South Korea; Kansas State Univ, Coll Engn, Dept Elect & Comp Engn, Manhattan, KS 66506 USA; Sejong Univ, Dept Elect Engn, Seoul 05006, South Korea; Kyungpook Natl Univ, Coll IT Engn, Sch Elect Engn, Daegu 41566, South Korea ⓘ	; Shin, BhumJae/AEV-2572-2022 ⓘ	57205191453; 57221800137; 57207956623; 57203199724; 57202369078; 16025295400; 7103027782; 7006298844 ⓘ	jyk@knu.ac.kr;shahzadiqbal@knu.ac.kr;bs00201@knu.ac.kr;eyjung@knu.ac.kr;doctor047@knu.ac.kr;purplepcs@ksu.edu;hahusbi@sejong.ac.kr;hstae@ee.knu.ac.kr; ⓘ	MATERIALS ⓘ	MATERIALS ⓘ		1996-1944	14	5	SCIE	CHEMISTRY, PHYSICAL;MATERIALS SCIENCE, MULTIDISCIPLINARY;METALLURGY & METALLURGICAL ENGINEERING;PHYSICS, APPLIED;PHYSICS, CONDENSED MATTER ⓘ	2021	3.748	22.2	1	2025-07-30 ⓘ	15	15	aniline; atmospheric pressure plasma reactor; conjugated polymer film; plasma polymerization; polyaniline ⓘ	ⓘ	Aniline; Atmospheric pressure plasma reactor; Conjugated polymer film; Plasma polymerization; Polyaniline ⓘ	Atmospheric chemistry; Atmospheric pressure; Atomic force microscopy; Electric discharges; Electrodes; Field emission microscopes; Fourier transform infrared spectroscopy; Morphology; Plasma applications; Polyaniline; Scanning electron microscopy; Surface morphology; Surface roughness; Thin films; Atmospheric pressure plasma reactor; Degree of polymerization; Dielectric barrier; Field emission scanning electron microscopy; Low surface roughness; Polyaniline film; Polyaniline thin films; Polymerized films; Plasma polymerization ⓘ	English	2021	2021-03	10.3390/ma14051278 ⓘ	바로가기	바로가기	바로가기	바로가기
○	○	Article ⓘ	Geometric Presentations of Braid Groups for Particles on a Graph ⓘ	We study geometric presentations of braid groups for particles that are constrained to move on a graph, i.e. a network consisting of nodes and edges. Our proposed set of generators consists of exchanges of pairs of particles on junctions of the graph and of certain circular moves where one particle travels around a simple cycle of the graph. We point out that so defined generators often do not satisfy the braiding relation known from 2D physics. We accomplish a full description of relations between the generators for star graphs where we derive certain quasi-braiding relations. We also describe how graph braid groups depend on the (graph-theoretic) connectivity of the graph. This is done in terms of quotients of graph braid groups where one-particle moves are put to identity. In particular, we show that for 3-connected planar graphs such a quotient reconstructs the well-known planar braid group. For 2-connected graphs this approach leads to generalisations of the Yang-Baxter equation. Our results are of particular relevance for the study of non-abelian anyons on networks showing new possibilities for non-abelian quantum statistics on graphs. ⓘ	An, Byung Hee; Maciazek, Tomasz ⓘ	Kyungpook Natl Univ, Dept Math Educ, Daegu, South Korea; Univ Bristol, Sch Math, Fry Bldg,Woodland Rd, Bristol BS8 1UG, Avon, England ⓘ	Maciążek, Tomasz/J-5893-2019; An, Byung Hee/O-8592-2014 ⓘ	36599927400; 55871881900 ⓘ	anbyhee@knu.ac.kr;tomasz.maciazek@bristol.ac.uk; ⓘ	COMMUNICATIONS IN MATHEMATICAL PHYSICS ⓘ	COMMUN MATH PHYS ⓘ	0010-3616	1432-0916	384	2	SCIE	PHYSICS, MATHEMATICAL ⓘ	2021	2.361	22.3	0.75	2025-07-30 ⓘ	8	7	ⓘ	ⓘ	ⓘ	ⓘ	English	2021	2021-06	10.1007/s00220-021-04095-x ⓘ	바로가기	바로가기	바로가기	바로가기
○	○	Article ⓘ	Constraints on anomalous Higgs boson couplings to vector bosons and fermions in its production and decay using the four-lepton final state ⓘ	Studies of CP violation and anomalous couplings of the Higgs boson to vector bosons and fermions are presented. The data were acquired by the CMS experiment at the LHC and correspond to an integrated luminosity of 137 fb(-1) at a proton-proton collision energy of 13 TeV. The kinematic effects in the Higgs boson's four-lepton decay H -> 4l and its production in association with two jets, a vector boson, or top quarks are analyzed, using a full detector simulation and matrix element techniques to identify the production mechanisms and to increase sensitivity to the tensor structure of the Higgs boson interactions. A simultaneous measurement is performed of up to five Higgs boson couplings to electroweak vector bosons (HVV), two couplings to gluons (Hgg), and two couplings to top quarks (Htt). The CP measurement in the Htt interaction is combined with the recent measurement in the H -> gamma gamma channel. The results are presented in the framework of anomalous couplings and are also interpreted in the framework of effective field theory, including the first study of CP properties of the Htt and effective Hgg couplings from a simultaneous analysis of the gluon fusion and top-associated processes. The results are consistent with the standard model of particle physics. ⓘ	Sirunyan, A. M.; Tumasyan, A.; Adam, W.; Andrejkovic, J. W.; Bergauer, T.; Chatterjee, S.; Dragicevic, M.; Del Valle, A. Escalante; Fruhwirth, R.; Jeitler, M.; Krammer, N.; Lechner, L.; Liko, D.; Mikulec, I; Paulitsch, P.; Pitters, F. M.; Schieck, J.; Schofbeck, R.; Spanring, M.; Templ, S.; Waltenberger, W.; Wulz, C-E; Chekhovsky, V; Litomin, A.; Makarenko, V; Darwish, M. R.; De Wolf, E. A.; Janssen, X.; Kello, T.; Lelek, A.; Sfar, H. Rejeb; Van Mechelen, P.; Van Putte, S.; Van Remortel, N.; Blekman, F.; Bols, E. S.; D'Hondt, J.; De Clercq, J.; Delcourt, M.; El Faham, H.; Lowette, S.; Moortgat, S.; Morton, A.; Muller, D.; Sahasransu, A. R.; Tavernier, S.; Van Doninck, W.; Van Mulders, P.; Beghin, D.; Bilin, B.; Clerbaux, B.; De Lentdecker, G.; Favart, L.; Grebenyuk, A.; Kalsi, A. K.; Lee, K.; Mahdavikhorrami, M.; Makarenko, I; Moureaux, L.; Petre, L.; Popov, A.; Postiau, N.; Starling, E.; Thomas, L.; Vanden Bemden, M.; Vander Velde, C.; Vanlaer, P.; Vannerom, D.; Wezenbeek, L.; Cornelis, T.; Dobur, D.; Knolle, J.; Lambrecht, L.; Mestdach, G.; Niedziela, M.; Roskas, C.; Samalan, A.; Skovpen, K.; Tran, T. T.; Tytgat, M.; Verbeke, W.; Vermassen, B.; Vit, M.; Bethani, A.; Bruno, G.; Bury, F.; Caputo, C.; David, P.; Delaere, C.; Donertas, I. S.; Giammanco, A.; Jaffel, K.; Lemaitre, V; Mondal, K.; Prisciandaro, J.; Taliercio, A.; Teklishyn, M.; Vischia, P.; Wertz, S.; Wuyckens, S.; Alves, G. A.; Hensel, C.; Moraes, A.; Alda Junior, W. L.; Gallo Pereira, M. Alves; Ferreira Filho, M. Barroso; Malbouisson, H. Brandao; Carvalho, W.; Chinellato, J.; Da Costa, E. M.; Da Silveira, G. G.; Damiao, D. De Jesus; De Souza, S. Fonseca; Figueiredo, D. Matos; Herrera, C. Mora; Amarilo, K. Mota; Mundim, L.; Nogima, H.; Teles, P. Rebello; Santoro, A.; Silva Do Amaral, S. M.; Sznajder, A.; Thiel, M.; Da Silva De Araujo, F. Torres; Pereira, A. Vilela; Bernardes, C. A.; Calligaris, L.; Fernandez Perez Tomei, T. R.; Gregores, E. M.; Lemos, D. S.; Mercadante, P. G.; Novaes, S. F.; Padula, Sandra S.; Aleksandrov, A.; Antchev, G.; Hadjiiska, R.; Iaydjiev, P.; Misheva, M.; Rodozov, M.; Shopova, M.; Sultanov, G.; Dimitrov, A.; Ivanov, T.; Litov, L.; Pavlov, B.; Petkov, P.; Petrov, A.; Cheng, T.; Fang, W.; Guo, Q.; Javaid, T.; Mittal, M.; Wang, H.; Yuan, L.; Ahmad, M.; Bauer, G.; Dozen, C.; Hu, Z.; Martins, J.; Wang, Y.; Yi, K.; Chapon, E.; Chen, G. M.; Chen, H. S.; Chen, M.; Iemmi, F.; Kapoor, A.; Leggat, D.; Liao, H.; Liu, Z-A; Milosevic, V; Monti, F.; Sharma, R.; Tao, J.; Thomas-Wilsker, J.; Wang, J.; Zhang, H.; Zhang, S.; Zhao, J.; Agapitos, A.; Ban, Y.; Chen, C.; Huang, Q.; Levin, A.; Li, Q.; Lyu, X.; Mao, Y.; Qian, S. J.; Wang, D.; Wang, Q.; Xiao, J.; Lu, M.; You, Z.; Gao, X.; Okawa, H.; Lin, Z.; Pan, R.; Xiao, M.; Avila, C.; Cabrera, A.; Florez, C.; Fraga, J.; Sarkar, A.; Segura Delgado, M. A.; Mejia Guisao, J.; Ramirez, F.; Ruiz Alvarez, J. D.; Salazar Gonzalez, C. A.; Giljanovic, D.; Godinovic, N.; Lelas, D.; Puljak, I; Antunovic, Z.; Kovac, M.; Sculac, T.; Brigljevic, V; Ferencek, D.; Majumder, D.; Roguljic, M.; Starodumov, A.; Susa, T.; Attikis, A.; Erodotou, E.; Ioannou, A.; Kole, G.; Kolosova, M.; Konstantinou, S.; Mousa, J.; Nicolaou, C.; Ptochos, F.; Razis, P. A.; Rykaczewski, H.; Saka, H.; Finger, M.; Finger, M., Jr.; Kveton, A.; Ayala, E.; Carrera Jarrin, E.; Abdalla, H.; Abdelalim, A. A.; Lotfy, A.; Mahmoud, M. A.; Bhowmik, S.; De Oliveira, A. Carvalho Antunes; Dewanjee, R. K.; Ehataht, K.; Kadastik, M.; Nielsen, C.; Pata, J.; Raidal, M.; Tani, L.; Veelken, C.; Eerola, P.; Forthomme, L.; Kirschenmann, H.; Osterberg, K.; Voutilainen, M.; Bharthuar, S.; Brucken, E.; Garcia, F.; Havukainen, J.; Kim, M. S.; Kinnunen, R.; Lampen, T.; Lassila-Perini, K.; Lehti, S.; Linden, T.; Lotti, M.; Martikainen, L.; Ott, J.; Siikonen, H.; Tuominen, E.; Tuominiemi, J.; Luukka, P.; Petrow, H.; Tuuva, T.; Amendola, C.; Besancon, M.; Couderc, F.; Dejardin, M.; Denegri, D.; Faure, J. L.; Ferri, F.; Ganjour, S.; Givernaud, A.; Gras, P.; de Monchenault, G. Hamel; Jarry, P.; Lenzi, B.; Locci, E.; Malcles, J.; Rander, J.; Rosowsky, A.; Sahin, M. O.; Savoy-Navarro, A.; Titov, M.; Yu, G. B.; Ahuja, S.; Beaudette, F.; Bonanomi, M.; Perraguin, A. Buchot; Busson, P.; Cappati, A.; Charlot, C.; Davignon, O.; Diab, B.; Falmagne, G.; Ghosh, S.; de Cassagnac, R. Granier; Hakimi, A.; Kucher, I; Nguyen, M.; Ochando, C.; Paganini, P.; Rembser, J.; Salerno, R.; Sauvan, J. B.; Sirois, Y.; Zabi, A.; Zghiche, A.; Agram, J-L; Andrea, J.; Apparu, D.; Bloch, D.; Bourgatte, G.; Brom, J-M; Chabert, E. C.; Collard, C.; Darej, D.; Fontaine, J-C; Goerlach, U.; Grimault, C.; Le Bihan, A-C; Nibigira, E.; Van Hove, P.; Asilar, E.; Beauceron, S.; Bernet, C.; Boudoul, G.; Camen, C.; Carle, A.; Chanon, N.; Contardo, D.; Depasse, P.; El Mamouni, H.; Fay, J.; Gascon, S.; Gouzevitch, M.; Ille, B.; Jain, Sa; Laktineh, I. B.; Lattaud, H.; Lesauvage, A.; Lethuillier, M.; Mirabito, L.; Perries, S.; Shchablo, K.; Sordini, V; Torterotot, L.; Touquet, G.; Vander Donckt, M.; Viret, S.; Khvedelidze, A.; Lomidze, I; Tsamalaidze, Z.; Feld, L.; Klein, K.; Lipinski, M.; Meuser, D.; Pauls, A.; Rauch, M. P.; Roewert, N.; Schulz, J.; Teroerde, M.; Eliseev, D.; Erdmann, M.; Fackeldey, P.; Fischer, B.; Ghosh, S.; Hebbeker, T.; Hoepfner, K.; Ivone, F.; Keller, H.; Mastrolorenzo, L.; Merschmeyer, M.; Meyer, A.; Mocellin, G.; Mondal, S.; Mukherjee, S.; Noll, D.; Novak, A.; Pook, T.; Pozdnyakov, A.; Rath, Y.; Reithler, H.; Roemer, J.; Schmidt, A.; Schuler, S. C.; Sharma, A.; Wiedenbeck, S.; Zaleski, S.; Dziwok, C.; Fluegge, G.; Ahmad, W. Haj; Hlushchenko, O.; Kress, T.; Nowack, A.; Pistone, C.; Pooth, O.; Roy, D.; Sert, H.; Stahl, A.; Ziemons, T.; Petersen, H. Aarup; Martin, M. Aldaya; Asmuss, P.; Babounikau, I; Baxter, S.; Behnke, O.; Martinez, A. Bermudez; Bhattacharya, S.; Bin Anuar, A. A.; Borras, K.; Botta, V; Brunner, D.; Campbell, A.; Cardini, A.; Cheng, C.; Colombina, F.; Rodriguez, S. Consuegra; Silva, G. Correia; Danilov, V; Didukh, L.; Eckerlin, G.; Eckstein, D.; Banos, L. I. 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Purdue Univ, W Lafayette, IN 47907 USA; Univ Haute Alsace, Mulhouse, France; Erzincan Binali Yildirim Univ, Erzincan, Turkey; Brandenburg Tech Univ Cottbus, Cottbus, Germany; Assiut Univ, Fac Sci, Phys Dept, Assiut, Egypt; Eszterhazy Karoly Univ, Karoly Robert Campus, Budapest, Hungary; IIT Bhubaneswar, Bhubaneswar, India; Inst Phys, Bhubaneswar, India; GHG Khalsa Coll, Ludhiana, Punjab, India; Shoolini Univ, Solan, India; Univ Hyderabad, Hyderabad, India; Univ Visva Bharati, Santini Ketan, W Bengal, India; Indian Inst Technol IIT, Mumbai, Maharashtra, India; Sharif Univ Technol, Tehran, Iran; Univ Sci & Technol Mazandaran, Dept Phys, Behshahr, Iran; Univ Bari, Politecn Bari, Sez Bari, Ist Nazl Fis Nucl, Bari, Italy; Italian Natl Agcy New Technol Energy & Sustainabl, Rome, Italy; Ctr Siciliano Fis Nucl & Struttura Mat, Catania, Italy; Consejo Nacl Ciencia & Technol, Mexico City, DF, Mexico; Uzbek Acad Sci, Inst Nucl Phys, Tashkent, Uzbekistan; St Petersburg State Polytech Univ, St Petersburg, Russia; Budker Inst Nucl Phys, Novosibirsk, Russia; Eastern Univ, Trincomalee Campus, Trincomalee, Sri Lanka; Univ Pavia, Sez Pavia, Ist Nazl Fis Nucl, Pavia, Italy; Ecole Polytech Fed Lausanne, Lausanne, Switzerland; Stefan Meyer Inst Subatom Phys, Vienna, Austria; IN2P3 CNRS, Lab Annecy Le Vieux Phys Particules, Annecy Le Vieux, France; Sirnak Univ, Sirnak, Turkey; Near East Univ, Res Ctr Expt Hlth Sci, Nicosia, Turkey; Konya Tech Univ, Konya, Turkey; Istanbul Univ Cerrahpasa, Fac Engn, Istanbul, Turkey; Pin Reis Univ, Istanbul, Turkey; Adiyaman Univ, Adiyaman, Turkey; Ozyegin Univ, Istanbul, Turkey; Izmir Inst Technol, Izmir, Turkey; Necmettin Erbakan Univ, Konya, Turkey; Bozok Univ Rektorlugu, Yozgat, Turkey; Marmara Univ, Istanbul, Turkey; Milli Savunma Univ, Istanbul, Turkey; Kafkas Univ, Kars, Turkey; Istanbul Bilgi Univ, Istanbul, Turkey; Hacettepe Univ, Ankara, Turkey; Univ Southampton, Sch Phys & Astron, Southampton, Hants, England; IPPP Durham Univ, Durham, England; Monash Univ, Fac Sci, Clayton, Vic, Australia; Bethel Univ, St Paul, MN USA; Karamanoglu Mehmetbey Univ, Karaman, Turkey; Ain Shams Univ, Cairo, Egypt; Bingol Univ, Bingol, Turkey; Sinop Univ, Sinop, Turkey; Erciyes Univ, Kayseri, Turkey; Texas A&M Univ Qatar, Doha, Qatar ⓘ	Kalsi, Amandeep Kaur/JNR-9607-2023; ALCARAZ MAESTRE, JUAN/I-5763-2015; Karancsi, János/A-9710-2013; Chang, Philip/AAN-3350-2021; candelise, vieri/H-2195-2015; Verma, Rajesh/GQZ-2300-2022; Hebbeker, Thomas/L-4073-2013; Piedra, Jonatan/F-3247-2018; Kodolova, Olga/IQV-0056-2023; MAESTRE, JUAN/I-5763-2015; ASILAR, Ece/KEI-3075-2024; Go, Yeonju/HSH-6030-2023; Klyukhin, Vyacheslav/D-6850-2012; Hollar, Jonathan/KZU-8312-2024; Li, Qiang/AGK-6990-2022; Skoro, Goran/F-3642-2010; Chen, Guang-Hui/IZE-3664-2023; Calligaris, Luigi/K-2018-2017; Ahuja, Sudha/I-4097-2014; Camporesi, Tiziano/F-8307-2013; Bonham, Brandon/JBJ-8605-2023; Fernandez Menendez, Javier/B-6550-2014; Focardi, Ettore/E-7376-2012; Heller, Richard/I-6605-2012; zhao, jize/AAS-1102-2021; Verwilligen, Piet/AAA-8819-2019; 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37048454000; 57043822800; 35227367700; 57218261101; 57202847289; 51663846700; 56681723400; 57204005081; 55203009000; 56352741400; 12758816400; 57217797874; 57190728397; 35227512400; 56681986300; 57192521178; 57205307086; 57199997802; 55095942200; 9276392600; 58383218300; 36171331300; 57220737619; 7101904491; 24376473600; 55134092500; 57220064460; 57219647487; 55603522400; 57216997315; 7102931559; 37051309800; 57220064097; 57220064533; 55538110700; 57219648360; 57216596346; 35227365100; 57220064314; 57217841082; 57221685212; 57220064375; 57220064223; 23480738300; 57220064351; 57199996011; 57207983072; 22996761700; 16226119300; 55951354400; 57201370087; 56681988200; 57147084600; 56401004600; 55868435500; 57210751238; 35308730700; 8984617000; 57189693933; 7006404363; 57210312265; 7003879901; 57210321748; 57215670509; 36639963700; 56501874000; 36123824900; 57217021019; 57215610762; 16403346300; 57193206437; 56648200300; 57216948352 ⓘ	ⓘ	PHYSICAL REVIEW D ⓘ	PHYS REV D ⓘ	2470-0010	2470-0029	104	5	SCIE	ASTRONOMY & ASTROPHYSICS;PHYSICS, PARTICLES & FIELDS ⓘ	2021	5.407	22.4	3.18	2025-07-30 ⓘ	39	51	ⓘ	BROKEN SYMMETRIES; CP VIOLATION; SPIN; MASS; ZZ ⓘ	ⓘ	ⓘ	English	2021	2021-09-17	10.1103/physrevd.104.052004 ⓘ	바로가기	바로가기	바로가기	바로가기
○	○	Article ⓘ	Evidence for the decay Ωc⁰ → π⁺Ω(2012)⁻ → π⁺ ((K)over-barΞ)⁻ ⓘ	Using a data sample of 980 fb(-1) collected with the Belle detector operating at the KEKB asymmetricenergy e(+)e(-) collider, we present evidence for the Omega(2012)-in the resonant substructure of Omega(0)(c) -> pi(+)( p(+) Omega(0)(c) -> pi(+)( pi(+)( pi(+)(<(K)over bar Xi)(-) +/- 0.7(syst))%. ⓘ	Li, Y.; Tang, S. S.; Jia, S.; Shen, C. P.; Adachi, I; Aihara, H.; Al Said, S.; Asner, D. M.; Atmacan, H.; Aulchenko, V; Aushev, T.; Ayad, R.; Babu, V; Bahinipati, S.; Behera, P.; Bessner, M.; Bilka, T.; Biswal, J.; Bozek, A.; Bracko, M.; Branchini, P.; Browder, T. E.; Budano, A.; Campajola, M.; Cervenko, D.; Chang, M-C; Chang, P.; Chekelian, V; Chen, A.; Cheon, B. G.; Chilikin, K.; Cho, H. E.; Cho, K.; Cho, S-J; Choi, Y.; Choudhury, S.; Cinabro, D.; Cunliffe, S.; Das, S.; Dash, N.; De Nardo, G.; De Pietro, G.; Di Capua, F.; Dolezal, Z.; Dong, T., V; Epifanov, D.; Ferber, T.; Fulsom, B. G.; Garg, R.; Gaur, V; Giri, A.; Goldenzweig, P.; Golob, B.; Graziani, E.; Gu, T.; Gudkova, K.; Hadjivasiliou, C.; Halder, S.; Hayasaka, K.; Hayashii, H.; Hou, W-S; Inami, K.; Ishikawa, A.; Iwasaki, M.; Iwasaki, Y.; Jacobs, W. W.; Jang, E-J; Jin, Y.; Joo, K. K.; Kang, K. H.; Karyan, G.; Kiesling, C.; Kim, C. H.; Kim, D. Y.; Kim, K-H; Kim, S. H.; Kim, Y-K; Kinoshita, K.; Kodys, P.; Konno, T.; Korobov, A.; Korpar, S.; Kovalenko, E.; Krizan, P.; Kroeger, R.; Krokovny, P.; Kuhr, T.; Kumar, M.; Kumara, K.; Kuzmin, A.; Kwon, Y-J; Lalwani, K.; Laurenza, M.; Lee, S. C.; Li, C. H.; Li, L. K.; Li Gioi, L.; Libby, J.; Lieret, K.; Liventsev, D.; Masuda, M.; Matsuda, T.; Matvienko, D.; McNeil, J. T.; Merola, M.; Miyabayashi, K.; Mizuk, R.; Mohanty, G. B.; Mori, T.; Mussa, R.; Nakao, M.; Natkaniec, Z.; Natochii, A.; Nayak, L.; Nayak, M.; Niiyama, M.; Nisar, N. K.; Nishida, S.; Nishimura, K.; Ono, H.; Onuki, Y.; Oskin, P.; Pakhlov, P.; Pakhlova, G.; Pardi, S.; Park, S-H; Passeri, A.; Paul, S.; Pedlar, T. K.; Pestotnik, R.; Piilonen, L. E.; Podobnik, T.; Popov, V; Prencipe, E.; Prim, M. T.; Rout, N.; Russo, G.; Sahoo, D.; Sakai, Y.; Sandilya, S.; Sangal, A.; Santelj, L.; Sanuki, T.; Savinov, V; Schnell, G.; Schwanda, C.; Seino, Y.; Senyo, K.; Shapkin, M.; Sharma, C.; Shebalin, V; Shiu, J-G; Sokolov, A.; Solovieva, E.; Staric, M.; Stottler, Z. S.; Sumihama, M.; Sumiyoshi, T.; Sutcliffe, W.; Takizawa, M.; Tanida, K.; Tenchini, F.; Trabelsi, K.; Uchida, M.; Uglov, T.; Unno, Y.; Uno, K.; Uno, S.; Usov, Y.; Vahsen, S. E.; Van Tonder, R.; Varner, G.; Vinokurova, A.; Waheed, E.; Wang, C. H.; Wang, E.; Wang, M-Z; Wang, P.; Watanuki, S.; Werbycka, O.; Won, E.; Yabsley, B. D.; Yan, W.; Yang, S. B.; Ye, H.; Yelton, J.; Yin, J. H.; Yuan, C. Z.; Yusa, Y.; Zhang, Z. P.; Zhilich, V; Zhukova, V ⓘ	Univ Basque Country UPV EHU, Dept Phys, Bilbao 48080, Spain; Univ Bonn, D-53115 Bonn, Germany; Brookhaven Natl Lab, Upton, NY 11973 USA; Budker Inst Nucl Phys SB RAS, Novosibirsk 630090, Russia; Charles Univ Prague, Fac Math & Phys, Prague 12116, Czech Republic; Chonnam Natl Univ, Gwangju 61186, South Korea; Univ Cincinnati, Cincinnati, OH 45221 USA; DESY, D-22607 Hamburg, Germany; Univ Florida, Gainesville, FL 32611 USA; Fu Jen Catholic Univ, Dept Phys, Taipei 24205, Taiwan; Fudan Univ, Key Lab Nucl Phys & Ion Beam Applicat MOE, Shanghai 200443, Peoples R China; Fudan Univ, Inst Modern Phys, Shanghai 200443, Peoples R China; Gifu Univ, Gifu 5011193, Japan; SOKENDAI Grad Univ Adv Studies, Hayama, Kanagawa 2400193, Japan; Gyeongsang Natl Univ, Jinju 52828, South Korea; Hanyang Univ, Dept Phys, Seoul 04763, South Korea; Hanyang Univ, Inst Nat Sci, Seoul 04763, South Korea; Univ Hawaii, Honolulu, HI 96822 USA; High Energy Accelerator Res Org KEK, Tsukuba, Ibaraki 3050801, Japan; High Energy Accelerator Res Org KEK, KEK Theory Ctr, J PARC Branch, Tsukuba, Ibaraki 3050801, Japan; Natl Res Univ Higher Sch Econ, Moscow 101000, Russia; Forschungszentrum Julich, D-52425 Julich, Germany; Basque Fdn Sci, Ikerbasque, Bilbao 48013, Spain; Indian Inst Technol Bhubaneswar, Satya Nagar 751007, India; Indian Inst Technol Hyderabad, Hyderabad 502285, Telangana, India; Indian Inst Technol Madras, Chennai 600036, Tamil Nadu, India; Indiana Univ, Bloomington, IN 47408 USA; Chinese Acad Sci, Inst High Energy Phys, Beijing 100049, Peoples R China; Inst High Energy Phys, A-1050 Vienna, Austria; Inst High Energy Phys, Protvino 142281, Russia; Ist Nazl Fis Nucl, Sez Napoli, I-80126 Naples, Italy; Ist Nazl Fis Nucl, Sez Roma Tre, I-00146 Rome, Italy; Ist Nazl Fis Nucl, Sez Torino, I-10125 Turin, Italy; Japan Atom Energy Agcy, Adv Sci Res Ctr, Naka, Ibaraki 3191195, Japan; J Stefan Inst, Ljubljana 1000, Slovenia; Karlsruher Inst Technol, Inst Expt Teilchenphys, D-76131 Karlsruhe, Germany; King Abdulaziz Univ, Fac Sci, Dept Phys, Jeddah 21589, Saudi Arabia; Kitasato Univ, Sagamihara, Kanagawa 2520373, Japan; Korea Inst Sci & Technol Informat, Daejeon 34141, South Korea; Korea Univ, Seoul 02841, South Korea; Kyoto Sangyo Univ, Kyoto 6038555, Japan; Kyungpook Natl Univ, Daegu 41566, South Korea; Univ Paris Saclay, IJCLab, CNRS IN2P3, F-91405 Orsay, France; Russian Acad Sci, PN Lebedev Phys Inst, Moscow 119991, Russia; Liaotung Normal Univ, Dalian 116029, Peoples R China; Univ Ljubljana, Fac Math & Phys, Ljubljana 1000, Slovenia; Ludwig Maximilians Univ Munchen, D-80539 Munich, Germany; Luther Coll, Decorah, IA 52101 USA; Malaviya Natl Inst Technol Jaipur, Jaipur 302017, Rajasthan, India; Univ Maribor, Fac Chem & Chem Engn, Maribor 2000, Slovenia; Max Planck Inst Phys & Astrophys, D-80805 Munich, Germany; Univ Mississippi, University, MS 38677 USA; Univ Miyazaki, Miyazaki 8892192, Japan; Moscow Phys Engn Inst, Moscow 115409, Russia; Nagoya Univ, Grad Sch Sci, Nagoya, Aichi 4648602, Japan; Univ Napoli Federico II, I-80126 Naples, Italy; Nara Womens Univ, Nara 6308506, Japan; Natl Cent Univ, Chungli 32054, Taiwan; Natl United Univ, Miaoli 36003, Taiwan; Natl Taiwan Univ, Dept Phys, Taipei 10617, Taiwan; H Niewodniczanski Inst Nucl Phys, PL-31342 Krakow, Poland; Nippon Dent Univ, Niigata 9518580, Japan; Niigata Univ, Niigata 9502181, Japan; Novosibirsk State Univ, Novosibirsk 630090, Russia; Osaka City Univ, Osaka 5588585, Japan; Pacific Northwest Natl Lab, Richland, WA 99352 USA; Panjab Univ, Chandigarh 160014, India; Univ Pittsburgh, Pittsburgh, PA 15260 USA; Osaka Univ, Res Ctr Nucl Phys, Osaka 5670047, Japan; RIKEN, Meson Sci Lab, Cluster Pioneering Res, Wako, Saitama 3510198, Japan; Univ Sci & Technol China, Dept Modern Phys, Hefei 230026, Peoples R China; Univ Sci & Technol China, State Key Lab Particle Detect & Elect, Hefei 230026, Peoples R China; Seoul Natl Univ, Seoul 08826, South Korea; Showa Pharmaceut Univ, Tokyo 1948543, Japan; Soongsil Univ, Seoul 06978, South Korea; Sungkyunkwan Univ, Suwon 16419, South Korea; Univ Sydney, Sch Phys, Sydney, NSW 2006, Australia; Univ Tabuk, Fac Sci, Dept Phys, Tabuk 71451, Saudi Arabia; Tata Inst Fundamental Res, Mumbai 400005, Maharashtra, India; Tech Univ Munich, Dept Phys, D-85748 Garching, Germany; Tel Aviv Univ, Sch Phys & Astron, IL-69978 Tel Aviv, Israel; Tohoku Univ, Dept Phys, Sendai, Miyagi 9808578, Japan; Univ Tokyo, Earthquake Res Inst, Tokyo 1130032, Japan; Univ Tokyo, Dept Phys, Tokyo 1130033, Japan; Tokyo Inst Technol, Tokyo 1528550, Japan; Tokyo Metropolitan Univ, Tokyo 1920397, Japan; Virginia Polytech Inst & State Univ, Blacksburg, VA 24061 USA; Wayne State Univ, Detroit, MI 48202 USA; Yamagata Univ, Yamagata 9908560, Japan; Yonsei Univ, Seoul 03722, South Korea; Univ Roma Tre, Dipartimento Matemat & Fis, I-100146 Rome, Italy ⓘ	Choudhury, Seema/LEM-7962-2024; Popov, Vitaliy/C-9925-2016; Dash, Nibedita/ABA-4232-2021; Pestotnik, Rok/A-3626-2008; Kim, Ji Hoon/AAB-4602-2022; Doležal, Zdeněk/K-6861-2017; Bilka, Tadeáš/Q-3680-2017; wang, zhifei/KVB-1065-2024; Mizuk, Roman/B-3751-2014; Pakhlova, Galina/C-5378-2014; Sumiyoshi, Takayuki/Q-5536-2017; Paul, Stephan/F-7596-2015; Li, Chun/KBC-9591-2024; Wang, Enliang/M-3780-2019; Al Said, S./J-1465-2016; Pachariya, Manoj/A-9646-2016; Solovieva, Elena/B-2449-2014; Russo, Graziella/GLQ-6239-2022; Aihara, Hiroaki/F-3854-2010; Won, Eunil/S-7182-2019; sun, jian/H-2376-2015; lu, Li/KBA-2603-2024; branchini, paolo/A-4857-2011; Werbycka, Olga/HTQ-3921-2023; Chen, Ang/HII-3354-2022; ISHIKAWA, Akimasa/AAG-9668-2020; Niiyama, Masayuki/HPE-8084-2023; Iwasaki, Masako/AAG-6574-2019; Tang, shishuai/LQL-0126-2024; Li, Longke/MSZ-3796-2025; Aushev, Tagir/AAN-9735-2020; Chilikin, Kirill/B-4402-2014; Tenchini, Francesco/JTT-8673-2023; Liventsev, Dmitri/MYR-0735-2025; Nellikunnummel, Nisar/AAY-7200-2021; Campajola, Marcello/V-1689-2019; Laurenza, Monica/HMD-8729-2023; Uglov, Timofey/B-2406-2014; Zhukova, Valentina/C-8878-2016; Natkaniec, Zbigniew/AAP-2995-2021; Shimizu, Noritaka/AHE-7477-2022; Korobov, Alexandr/G-7402-2018; BABU, JENSY/KAM-3345-2024; Pakhlov, Pavel/K-2158-2013; Kodys, Peter/P-2636-2017; Wang, Shaohui/HKO-6774-2023; Kumar, Abhishek/KCL-4676-2024; de pietro, giuseppe/L-6139-2019; Cheon, Byung/B-3035-2008; Dong, Thanh/MIT-2305-2025; Waheed, Eiasha/AAG-6743-2021; Sandilya, Saurabh/AAR-2477-2021; zhang, xu/JXX-7692-2024; Chang, Philip/AAN-3350-2021; Kovalenko, Evgeniy/AAL-6514-2021; Gaur, Vipin/HZM-4280-2023; Passeri, Antonio/AAJ-8429-2020; Li, Jiarong/ABG-6750-2022; Oskin, Pavel/AAB-5345-2020 ⓘ	58754147400; 57224183693; 57194692653; 35227999800; 35226935400; 26431253400; 24764515900; 35226924300; 35228789100; 57205336008; 35226925000; 36473131000; 56673779100; 35226929900; 57943353600; 57208362193; 56624583600; 57055915400; 57225386308; 35271332600; 7007185851; 35226974400; 35276918200; 57201115046; 55913471500; 35225729000; 55628577865; 8062452000; 35227071900; 35271166300; 57225375986; 57207576178; 57207798241; 57216645386; 59110376400; 57767118500; 57215682164; 55368264400; 57202083225; 56985709800; 35227136100; 57206305017; 57208830718; 57214699347; 57488886000; 35227130100; 15126870300; 35227244500; 57219588212; 37074665000; 7102961266; 35233679700; 35227277400; 7006321472; 59575364000; 57219331214; 15848423500; 57209094410; 35227356500; 35227353100; 35227366200; 56522611500; 35227389900; 35227405400; 56522275200; 7201781287; 57212275346; 59299091500; 35227379900; 57224903543; 35221743200; 8062452400; 57199973280; 35225891500; 57220563163; 7601588326; 59734007100; 35227494800; 14826956800; 53063887800; 57170079600; 57080476200; 57222187903; 10639485800; 35227502900; 57208069443; 35227570700; 58018872200; 57216645334; 57205335932; 56419217900; 46661127500; 57223968999; 57257924100; 36065449800; 57202345327; 26867892800; 55820982400; 57211034012; 56812540000; 56779517600; 59587666000; 18536939900; 57197157079; 36876647700; 56235238900; 35227750200; 35227732200; 57200896355; 55406048600; 57203524033; 35227761700; 57194197815; 57219797292; 55631815900; 57219719005; 55632289100; 57219627811; 26632346500; 7401965457; 35227766800; 57211715084; 35227740400; 35234620700; 6602539790; 57207467557; 23025523000; 7401979314; 35227847800; 35227892100; 57205388346; 35227932600; 58918272500; 35227850000; 36099403700; 57213625981; 7202429853; 57215857178; 7403480472; 56985930800; 57215862663; 35590850800; 8059063000; 56482852900; 8721812700; 35228014600; 56985327200; 57214214242; 35227994200; 57221053071; 57222997386; 55628572552; 57212378611; 25958374200; 35227948400; 57204951723; 6603406495; 55554740400; 55913607000; 35942976800; 8388152800; 37103051300; 35228062300; 57219721118; 35228072600; 59828691600; 59498189200; 35228086800; 35228154000; 57222995522; 57204557858; 57222996364; 35273620100; 57193702443; 59091623000; 58858085200; 35228078700; 57202261521; 57014809700; 57224183690; 35274124300; 56433757500; 55966462800; 57204951807; 55286044100; 57223951701; 56449839600; 35228236100; 55145482100; 59640793400; 35228211600; 57990888000 ⓘ	ⓘ	PHYSICAL REVIEW D ⓘ	PHYS REV D ⓘ	2470-0010	2470-0029	104	5	SCIE	ASTRONOMY & ASTROPHYSICS;PHYSICS, PARTICLES & FIELDS ⓘ	2021	5.407	22.4	0.96	2025-07-30 ⓘ	14	14	ⓘ	QUARK DELOCALIZATION; OMEGA 2012; GENERATION; MODEL ⓘ	ⓘ	ⓘ	English	2021	2021-09-10	10.1103/physrevd.104.052005 ⓘ	바로가기	바로가기	바로가기	바로가기
○	○	Article ⓘ	First determination of the spin and parity of the charmed-strange baryon Ξc (2970)⁺ ⓘ	We report results from a study of the spin and parity of Xi(c)(2970)(+) using a 980 fb(-1) data sample collected by the Belle detector at the KEKB asymmetric-energy e(+) e(-) collider. The decay angle distributions in the chain Xi(c)(2970)(+) -> Xi(c) (2645)(0)pi(+) -> Xi c(+) pi(-)pi(+) are analyzed to determine the spin of this charmed-strange baryon. The angular distributions strongly favor the Xi(c) (2970)(+) spin J = 1/2 over 3/2 or 5/2, under an assumption that the lowest partial wave dominates in the decay. We also measure the ratio of Xi(c) (2970)(+) decay branching fractions R= B[Xi(c) (2970)(+) -> Xi(c)(2645)(0)(pi)+]/B[Xi(c)(2970)(+) -> Xi('0)(c)pi(+)] 1..67 +/- 0.29(stat)(-0.09)(+0.15)(syst)+/- 0.25(IS), where the last uncertainty is due to possible isospin-symmetry-breaking effects. This R value favors the spin-parity J(P) = 1/2(+) with the spin of the light-quark degrees of freedom s(l) = 0. This is the first determination of the spin and parity of a charmed-strange baryon. ⓘ	Moon, T. J.; Tanida, K.; Kato, Y.; Kim, S. K.; Adachi, I; Ahn, J. K.; Aihara, H.; Al Said, S.; Asner, D. M.; Aulchenko, V; Aushev, T.; Ayad, R.; Babu, V; Bahinipati, S.; Behera, P.; Beleno, C.; Bennett, J.; Bessner, M.; Bhuyan, B.; Bilka, T.; Biswal, J.; Bonvicini, G.; Bozek, A.; Bracko, M.; Browder, T. E.; Campajola, M.; Cao, L.; Cervenkov, D.; Chang, M-C; Chang, P.; Chen, A.; Cheon, B. G.; Chilikin, K.; Cho, K.; Choi, S-K; Choi, Y.; Choudhury, S.; Cinabro, D.; Cunliffe, S.; Dash, N.; De Nardo, G.; Di Capua, F.; Dolezal, Z.; Dong, T., V; Dossett, D.; Dubey, S.; Eidelman, S.; Epifanov, D.; Ferber, T.; Fulsom, B. G.; Garg, R.; Gaur, V; Gabyshev, N.; Garmash, A.; Giri, A.; Goldenzweig, P.; Golob, B.; Hadjivasiliou, C.; Hartbrich, O.; Hayasaka, K.; Hayashii, H.; Hedges, M. T.; Hou, W-S; Hsu, C-L; Inami, K.; Inguglia, G.; Ishikawa, A.; Itoh, R.; Iwasaki, M.; Iwasaki, Y.; Jacobs, W. W.; Jia, S.; Jin, Y.; Joo, K. K.; Kang, K. H.; Karyan, G.; Kawasaki, T.; Kichimi, H.; Kiesling, C.; Kim, B. H.; Kim, D. Y.; Kim, K. T.; Kim, S. H.; Kim, Y. J.; Kim, Y-K; Kimmel, T. D.; Kinoshita, K.; Kodys, P.; Korpar, S.; Kotchetkov, D.; Krizan, P.; Kroeger, R.; Krokovny, P.; Kuhr, T.; Kumar, R.; Kumara, K.; Kuzmin, A.; Kwon, Y-J; Lee, I. S.; Lee, J. Y.; Lee, S. C.; Li, L. K.; Li, Y. B.; Li Gioi, L.; Libby, J.; Liptak, Z.; Liventsev, D.; Luo, T.; MacQueen, C.; Masuda, M.; Matsuda, T.; Matvienko, D.; Merola, M.; Miyabayashi, K.; Miyata, H.; Mizuk, R.; Mohanty, G. B.; Mohanty, S.; Mori, T.; Mussa, R.; Nakano, T.; Nakao, M.; Natkaniec, Z.; Natochii, A.; Nayak, M.; Niiyama, M.; Nisar, N. K.; Nishida, S.; Ogawa, K.; Ogawa, S.; Ono, H.; Pakhlov, P.; Pakhlova, G.; Pardi, S.; Park, H.; Park, S-H; Patra, S.; Paul, S.; Pedlar, T. K.; Pestotnik, R.; Piilonen, L. E.; Podobnik, T.; Popov, V; Prencipe, E.; Prim, M. T.; Ritter, M.; Rout, N.; Russo, G.; Sahoo, D.; Sakai, Y.; Sandilya, S.; Sangal, A.; Santelj, L.; Savinov, V; Schnell, G.; Schueler, J.; Schwanda, C.; Seidl, R.; Seino, Y.; Senyo, K.; Sevior, M. E.; Shapkin, M.; Shen, C. P.; Shiu, J-G; Shwartz, B.; Solovieva, E.; Sumihama, M.; Sumisawa, K.; Sumiyoshi, T.; Sutcliffe, W.; Takizawa, M.; Tamponi, U.; Tenchini, F.; Trabelsi, K.; Uchida, M.; Uehara, S.; Uglov, T.; Unno, Y.; Uno, S.; Urquijo, P.; Vahsen, S. E.; Van Tonder, R.; Varner, G.; Vinokurova, A.; Vorobyev, V.; Vossen, A.; Wang, C. H.; Wang, E.; Wang, M-Z; Wang, P.; Wehle, S.; Wiechczynski, J.; Xu, X.; Yabsley, B. D.; Yang, S. B.; Ye, H.; Yelton, J.; Yin, J. H.; Yuan, C. Z.; Zhang, Z. P.; Zhilich, V; Zhukova, V; Zhulanov, V ⓘ	Univ Basque Country UPV EHU, Bilbao 48080, Spain; Univ Bonn, D-53115 Bonn, Germany; Brookhaven Natl Lab, Upton, NY 11973 USA; Budker Inst Nucl Phys SB RAS, Novosibirsk 630090, Russia; Charles Univ Prague, Fac Math & Phys, Prague 12116, Czech Republic; Chonnam Natl Univ, Gwangju 61186, South Korea; Univ Cincinnati, Cincinnati, OH 45221 USA; DESY, D-22607 Hamburg, Germany; Duke Univ, Durham, NC 27708 USA; Univ Florida, Gainesville, FL 32611 USA; Fu Jen Catholic Univ, Dept Phys, Taipei 24205, Taiwan; Fudan Univ, Key Lab Nucl Phys & Ion Beam Applicat MOE, Shanghai 200443, Peoples R China; Fudan Univ, Inst Modern Phys, Shanghai 200443, Peoples R China; Gifu Univ, Gifu 5011193, Japan; Georg August Univ Gottingen, Phys Inst 2, D-37073 Gottingen, Germany; SOKENDAI Grad Univ Adv Studies, Hayama, Kanagawa 2400193, Japan; Gyeongsang Natl Univ, Jinju 52828, South Korea; Hanyang Univ, Dept Phys, Seoul 04763, South Korea; Hanyang Univ, Inst Nat Sci, Seoul 04763, South Korea; Univ Hawaii, Honolulu, HI 96822 USA; High Energy Accelerator Res Org KEK, Tsukuba, Ibaraki 3050801, Japan; High Energy Accelerator Res Org KEK, KEK Theory Ctr, J PARC Branch, Tsukuba, Ibaraki 3050801, Japan; Higher Sch Econ HSE, Moscow 101000, Russia; Forschungszentrum Julich, D-52425 Julich, Germany; Basque Fdn Sci, Ikerbasque, Bilbao 48013, Spain; Indian Inst Sci Educ & Res Mohali, Sas Nagar 140306, India; Indian Inst Technol Bhubaneswar, Satya Nagar 751007, India; Indian Inst Technol Guwahati, Gauhati 781039, Assam, India; Indian Inst Technol Hyderabad, Hyderabad 502285, Telangana, India; Indian Inst Technol Madras, Chennai 600036, Tamil Nadu, India; Indiana Univ, Bloomington, IN 47408 USA; Chinese Acad Sci, Inst High Energy Phys, Beijing 100049, Peoples R China; Inst High Energy Phys, A-1050 Vienna, Austria; Inst High Energy Phys, Protvino 142281, Russia; Ist Nazl Fis Nucl, Sez Napoli, I-80126 Naples, Italy; Ist Nazl Fis Nucl, Sez Torino, I-10125 Turin, Italy; Japan Atom Energy Agcy, Adv Sci Res Ctr, Naka, Ibaraki 3191195, Japan; J Stefan Inst, Ljubljana 1000, Slovenia; Karlsruher Inst Technol, Inst Expt Teilchenphys, D-76131 Karlsruhe, Germany; King Abdulaziz Univ, Fac Sci, Dept Phys, Jeddah 21589, Saudi Arabia; Kitasato Univ, Sagamihara, Kanagawa 2520373, Japan; Korea Inst Sci & Technol Informat, Daejeon 34141, South Korea; Korea Univ, Seoul 02841, South Korea; Kyoto Sangyo Univ, Kyoto 6038555, Japan; Kyungpook Natl Univ, Daegu 41566, South Korea; Univ Paris Saclay, IJCLab, CNRS IN2P3, F-91405 Orsay, France; Russian Acad Sci, PN Lebedev Phys Inst, Moscow 119991, Russia; Univ Ljubljana, Fac Math & Phys, Ljubljana 1000, Slovenia; Ludwig Maximilians Univ Munchen, D-80539 Munich, Germany; Luther Coll, Decorah, IA 52101 USA; Univ Maribor, Maribor 2000, Slovenia; Max Planck Inst Phys & Astrophys, D-80805 Munich, Germany; Univ Melbourne, Sch Phys, Melbourne, Vic 3010, Australia; Univ Mississippi, University, MS 38677 USA; Univ Miyazaki, Miyazaki 8892192, Japan; Moscow Phys Engn Inst, Moscow 115409, Russia; Nagoya Univ, Grad Sch Sci, Nagoya, Aichi 4648602, Japan; Univ Napoli Federico II, I-80126 Naples, Italy; Nara Womens Univ, Nara 6308506, Japan; Natl Cent Univ, Chungli 32054, Taiwan; Natl United Univ, Miaoli 36003, Taiwan; Natl Taiwan Univ, Dept Phys, Taipei 10617, Taiwan; H Niewodniczanski Inst Nucl Phys, PL-31342 Krakow, Poland; Nippon Dent Univ, Niigata 9518580, Japan; Niigata Univ, Niigata 9502181, Japan; Novosibirsk State Univ, Novosibirsk 630090, Russia; Osaka City Univ, Osaka 5588585, Japan; Pacific Northwest Natl Lab, Richland, WA 99352 USA; Panjab Univ, Chandigarh 160014, India; Peking Univ, Beijing 100871, Peoples R China; Univ Pittsburgh, Pittsburgh, PA 15260 USA; Punjab Agr Univ, Ludhiana 141004, Punjab, India; Osaka Univ, Res Ctr Nucl Phys, Osaka 5670047, Japan; RIKEN BNL Res Ctr, Upton, NY 11973 USA; Univ Sci & Technol China, Dept Modern Phys, Hefei 230026, Peoples R China; Univ Sci & Technol China, State Key Lab Particle Detect & Elect, Hefei 230026, Peoples R China; Seoul Natl Univ, Seoul 08826, South Korea; Showa Pharmaceut Univ, Tokyo 1948543, Japan; Soochow Univ, Suzhou 215006, Peoples R China; Soongsil Univ, Seoul 06978, South Korea; Sungkyunkwan Univ, Suwon 16419, South Korea; Univ Sydney, Sch Phys, Sydney, NSW 2006, Australia; Univ Tabuk, Fac Sci, Dept Phys, Tabuk 71451, Saudi Arabia; Tata Inst Fundamental Res, Mumbai 400005, Maharashtra, India; Tech Univ Munich, Dept Phys, D-85748 Garching, Germany; Tel Aviv Univ, Sch Phys & Astron, IL-69978 Tel Aviv, Israel; Toho Univ, Funabashi, Chiba 2748510, Japan; Univ Tokyo, Earthquake Res Inst, Tokyo 1130032, Japan; Univ Tokyo, Dept Phys, Tokyo 1130033, Japan; Tokyo Inst Technol, Tokyo 1528550, Japan; Tokyo Metropolitan Univ, Tokyo 1920397, Japan; Utkal Univ, Bhubaneswar 751004, Orissa, India; Virginia Polytech Inst & State Univ, Blacksburg, VA 24061 USA; Wayne State Univ, Detroit, MI 48202 USA; Yamagata Univ, Yamagata 9908560, Japan; Yonsei Univ, Seoul 03722, South Korea ⓘ	Pestotnik, Rok/A-3626-2008; Uglov, Timofey/B-2406-2014; Al Said, S./J-1465-2016; Križan, Peter/L-7809-2016; Li, Longke/MSZ-3796-2025; Doležal, Zdeněk/K-6861-2017; Campajola, Marcello/V-1689-2019; Tenchini, Francesco/JTT-8673-2023; Sumiyoshi, Takayuki/Q-5536-2017; Liventsev, Dmitri/MYR-0735-2025; Shwartz, Boris/N-2673-2014; Zhukova, Valentina/C-8878-2016; kim, sang-soo/C-6573-2009; Pakhlova, Galina/C-5378-2014; Sandilya, Saurabh/AAR-2477-2021; Chang, Philip/AAN-3350-2021; Gaur, Vipin/HZM-4280-2023; KIM, Sun Kee/IQT-8178-2023; Nellikunnummel, Nisar/AAY-7200-2021; ISHIKAWA, Akimasa/AAG-9668-2020; BABU, JENSY/KAM-3345-2024; Dong, Thanh/MIT-2305-2025; Wang, Shaohui/HKO-6774-2023; Natkaniec, Zbigniew/AAP-2995-2021; Popov, Vitaliy/C-9925-2016; Li, Jiarong/ABG-6750-2022; Chilikin, Kirill/B-4402-2014; Pakhlov, Pavel/K-2158-2013; Aushev, Tagir/AAN-9735-2020; Dash, Nibedita/ABA-4232-2021; Park, Hyungkyu/JVZ-0024-2024; Niiyama, Masayuki/HPE-8084-2023; Kumar, Abhishek/KCL-4676-2024; LIPTAK, ZACHARY/AAR-3980-2020; , Luo/AAP-8401-2020; Aihara, Hiroaki/F-3854-2010; sun, jian/H-2376-2015; Mizuk, Roman/B-3751-2014; zhang, xu/JXX-7692-2024; Choudhury, Seema/LEM-7962-2024; wang, zhifei/KVB-1065-2024; Iwasaki, Masako/AAG-6574-2019; lu, Li/KBA-2603-2024; Egorychev, Victor/H-1076-2014; Tamponi, Umberto/AGG-5576-2022; Cheon, Byung/B-3035-2008; Liptak, Zachary/AAR-3980-2020; Solovieva, Elena/B-2449-2014; Shimizu, Noritaka/AHE-7477-2022; Wang, Hui/GLT-7990-2022; Vorobyev, Vitaly/H-9799-2018; Kodys, Peter/P-2636-2017; Bilka, Tadeáš/Q-3680-2017; Bilka, Tadeas/Q-3680-2017; Paul, Stephan/F-7596-2015; Cervenkov, Daniel/D-2884-2017 ⓘ	57201450958; 8388152800; 57221670564; 57200876753; 35226935400; 7403019450; 26431253400; 24764515900; 35226924300; 57205336008; 35226925000; 36473131000; 56673779100; 35226929900; 57943353600; 57195150458; 35313360100; 57208362193; 57830739900; 56624583600; 57055915400; 57206506584; 57225386308; 35271332600; 35226974400; 57201115046; 57204568429; 55913471500; 35225729000; 55628577865; 35227071900; 35271166300; 57225375986; 57207798241; 35227095000; 59110376400; 57767118500; 57215682164; 55368264400; 56985709800; 35227136100; 57208830718; 57214699347; 57488886000; 36494090800; 56044932800; 57220210877; 35227130100; 15126870300; 35227244500; 57219588212; 37074665000; 35227272700; 35227285100; 7102961266; 35233679700; 35227277400; 15848423500; 55816086100; 35227356500; 35227353100; 15925464600; 35227366200; 55817230300; 56522611500; 54881461100; 35227389900; 7103061159; 35227405400; 56522275200; 7201781287; 57194692653; 59299091500; 35227379900; 57224903543; 35221743200; 35227364200; 35227523300; 8062452400; 59789719000; 35225891500; 50361579400; 7601588326; 57219206706; 59734007100; 57211428599; 35227494800; 14826956800; 57080476200; 57222996371; 10639485800; 35227502900; 57208069443; 35227570700; 57203774559; 57216645334; 57205335932; 56419217900; 55816685400; 55870761600; 57257924100; 57202345327; 58754147400; 26867892800; 55820982400; 48261344700; 56812540000; 36777886700; 57205390925; 56779517600; 59587666000; 18536939900; 36876647700; 56235238900; 57219755059; 35227750200; 35227732200; 57211061686; 57200896355; 55406048600; 56384529800; 57203524033; 35227761700; 57194197815; 55631815900; 57219719005; 55632289100; 57219627811; 57215134786; 35227762800; 7401965457; 35227740400; 35234620700; 6602539790; 35086680500; 57207467557; 57219437245; 7401979314; 35227847800; 35227892100; 57205388346; 35227932600; 58918272500; 35227850000; 36099403700; 22968787800; 57213625981; 7202429853; 57215857178; 7403480472; 56985930800; 57215862663; 35590850800; 56482852900; 8721812700; 57204956418; 35228014600; 57207901251; 56985327200; 57214214242; 35227980100; 35227994200; 35227999800; 55628572552; 7004048116; 25958374200; 35227948400; 57204951723; 6603406495; 57215086563; 55554740400; 55913607000; 35942976800; 56808198900; 37103051300; 35228062300; 57219721118; 35228144200; 35228072600; 59828691600; 35228086800; 35228106200; 57222995522; 57204557858; 57222996364; 35273620100; 55195340700; 36934412800; 59091623000; 58858085200; 35228078700; 57202261521; 56453244800; 15835927600; 57221066125; 56433757500; 57204951807; 55286044100; 57223951701; 56449839600; 35228236100; 59640793400; 35228211600; 57990888000; 35273950000 ⓘ	ⓘ	PHYSICAL REVIEW D ⓘ	PHYS REV D ⓘ	2470-0010	2470-0029	103	11	SCIE	ASTRONOMY & ASTROPHYSICS;PHYSICS, PARTICLES & FIELDS ⓘ	2021	5.407	22.4	1.7	2025-07-30 ⓘ	24	23	ⓘ	HEAVY BARYONS; QUARK; MASSES ⓘ	ⓘ	ⓘ	English	2021	2021-06-16	10.1103/physrevd.103.l111101 ⓘ	바로가기	바로가기	바로가기	바로가기

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Issue	저널의 호(Issue) 번호입니다. 한 권 내에서 여러 호로 나누어 출판되는 경우가 많습니다.
WoS Edition	Web of Science의 에디션입니다. SCIE(Science Citation Index Expanded), SSCI(Social Sciences Citation Index), AHCI(Arts & Humanities Citation Index) 등으로 구분됩니다.
WoS Category	Web of Science의 주제 분류 카테고리입니다. 저널과 논문이 속한 학문 분야를 나타냅니다.
JCR Year	해당 저널의 JCR(Journal Citation Reports) 지표가 산출된 연도입니다.
IF (Impact Factor)	저널 영향력 지수. 최근 2년간 발표된 논문이 해당 연도에 평균적으로 인용된 횟수를 나타냅니다. 저널의 학술적 영향력을 나타내는 대표적인 지표입니다.
JCR (%)	해당 카테고리에서 저널이 위치하는 상위 백분율입니다. 값이 낮을수록 우수한 저널임을 의미합니다 (예: 5%는 상위 5%를 의미).
FWCI	Field-Weighted Citation Impact. 분야별 가중 인용 영향력 지수입니다. 논문이 받은 인용을 동일 분야, 동일 연도, 동일 문헌 유형의 평균과 비교한 값입니다. 1.0이 평균이며, 1.0보다 높으면 평균 이상의 인용을 받았음을 의미합니다.
FWCI UpdateDate	FWCI 값이 마지막으로 업데이트된 날짜입니다. FWCI는 인용이 누적됨에 따라 주기적으로 업데이트됩니다.
WOS Citation	Web of Science에서 집계된 해당 논문의 총 인용 횟수입니다.
SCOPUS Citation	SCOPUS에서 집계된 해당 논문의 총 인용 횟수입니다.
Keywords (WoS)	저자가 논문에서 직접 지정한 키워드입니다. Web of Science에 등록된 저자 키워드 목록입니다.
KeywordsPlus (WoS)	Web of Science에서 자동으로 추출한 추가 키워드입니다. 논문의 참고문헌 제목에서 자주 등장하는 단어들로 생성됩니다.
Keywords (SCOPUS)	저자가 논문에서 직접 지정한 키워드입니다. SCOPUS에 등록된 저자 키워드 목록입니다.
KeywordsPlus (SCOPUS)	SCOPUS에서 자동으로 추출하거나 추가한 색인 키워드입니다.
Language	논문이 작성된 언어입니다. 대부분 English이며, 그 외 다양한 언어로 작성된 논문이 포함될 수 있습니다.
Publication Year	논문이 출판된 연도입니다.
Publication Date	논문의 정확한 출판 날짜입니다 (년-월-일 형식).
DOI	Digital Object Identifier. 디지털 객체 식별자로, 논문을 고유하게 식별하는 영구적인 식별번호입니다. 이를 통해 논문의 온라인 위치를 찾을 수 있습니다.

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