University of Oxford
Yulin Chen mainly investigates Condensed matter physics, Topological insulator, Photoemission spectroscopy, Electronic structure and Surface states. The study incorporates disciplines such as Magnetoresistance and Dirac in addition to Condensed matter physics. The various areas that he examines in his Topological insulator study include Angle-resolved photoemission spectroscopy, Topological order, Dirac fermion and Quantum anomalous Hall effect.
He combines subjects such as Fermi level, Quantum Hall effect and Band gap with his study of Angle-resolved photoemission spectroscopy. His biological study spans a wide range of topics, including Direct and indirect band gaps, Monolayer and Epitaxy. His study explores the link between Electronic structure and topics such as Quantum state that cross with problems in Quantum phase transition and Graphene.
His scientific interests lie mostly in Condensed matter physics, Topological insulator, Angle-resolved photoemission spectroscopy, Electronic structure and Photoemission spectroscopy. His Condensed matter physics research is multidisciplinary, incorporating elements of Magnetoresistance and Dirac. Yulin Chen performs integrative study on Topological insulator and Surface states.
In Angle-resolved photoemission spectroscopy, Yulin Chen works on issues like Fermi surface, which are connected to Fermi level. His Electronic structure research includes themes of Ab initio quantum chemistry methods, Quasiparticle, Valence, Dirac fermion and Electronic band structure. His Photoemission spectroscopy research also works with subjects such as
His main research concerns Condensed matter physics, Photoemission spectroscopy, Topological insulator, Electronic structure and Angle-resolved photoemission spectroscopy. His Condensed matter physics study frequently links to adjacent areas such as Fermi level. His research integrates issues of van der Waals force, Laser, Graphene and Dirac in his study of Photoemission spectroscopy.
His studies deal with areas such as Magnetic structure, Quantum, Hall effect and Antiferromagnetism as well as Topological insulator. His Electronic structure study combines topics from a wide range of disciplines, such as Ab initio quantum chemistry methods, Phase diagram, Brillouin zone, Thermoelectric effect and Superconductivity. The Angle-resolved photoemission spectroscopy study combines topics in areas such as Scanning tunneling microscope, Nano-, Electronic band structure and Quantum oscillations.
His primary scientific interests are in Topological insulator, Condensed matter physics, Phase transition, Photoemission spectroscopy and Topology. In his research, he performs multidisciplinary study on Topological insulator and Surface states. Yulin Chen works in the field of Condensed matter physics, focusing on Ferromagnetism in particular.
His Photoemission spectroscopy study integrates concerns from other disciplines, such as Electronic structure and Band gap. His Electronic structure study combines topics in areas such as Seebeck coefficient, Thermoelectric effect, Thermoelectric materials, Brillouin zone and Binding energy. In his study, which falls under the umbrella issue of Topology, Weyl semimetal and Charge density wave is strongly linked to Quantum.
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Experimental realization of a three-dimensional topological insulator, Bi2Te3
Y. L. Chen;J. G. Analytis;J. G. Analytis;J.-H. Chu;J.-H. Chu;Z. K. Liu;Z. K. Liu.
Discovery of a Three-Dimensional Topological Dirac Semimetal, Na3Bi
Zhongkai Liu;Bo Zhou;Bo Zhou;Yong Zhang;Zhijun Wang.
A stable three-dimensional topological Dirac semimetal Cd3As2
Zhongkai Liu;Juan Jiang;Bo Zhou;Zhijun Wang.
Nature Materials (2014)
Direct observation of the transition from indirect to direct bandgap in atomically thin epitaxial MoSe2
Yi Zhang;Tay Rong Chang;Bo Zhou;Yong Tao Cui.
Nature Nanotechnology (2014)
Massive Dirac Fermion on the Surface of a Magnetically Doped Topological Insulator
Yulin Chen;Jiun-Haw Chu;James Analytis;Zhongkai Liu.
Ultrasmooth organic-inorganic perovskite thin-film formation and crystallization for efficient planar heterojunction solar cells.
Wei Zhang;Michael Saliba;David T. Moore;Sandeep K. Pathak.
Nature Communications (2015)
Weyl semimetal phase in the non-centrosymmetric compound TaAs
L. X. Yang;L. X. Yang;L. X. Yang;Z. K. Liu;Y. Sun;H. Peng.
Nature Physics (2015)
Extremely large magnetoresistance and ultrahigh mobility in the topological Weyl semimetal candidate NbP
Chandra Shekhar;Ajaya K. Nayak;Yan Sun;Marcus Schmidt.
Nature Physics (2015)
Aharonov–Bohm interference in topological insulator nanoribbons
Hailin Peng;Hailin Peng;Keji Lai;Desheng Kong;Stefan Meister.
Nature Materials (2010)
Giant anomalous Hall effect in a ferromagnetic Kagomé-lattice semimetal.
Enke Liu;Enke Liu;Yan Sun;Nitesh Kumar;Lukas Muechler.
Nature Physics (2018)
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