Main Page: Difference between revisions
No edit summary |
No edit summary |
||
| Line 2: | Line 2: | ||
Our group's specialty is growth and transport study of thin films grown by Molecular Beam Epitaxy (MBE). Our custom-designed MBE system has a number of unique capabilities that facilitate atomic-scale engineering of a variety of novel material systems. Utilizing these unique capabilities, we are actively investigating topological insulators, complex oxides and their heterostructures. Such heterostructures could yield new physics and devices that are intriguing both intellectually and technologically. We are currently one of the leading groups in thin film topological insulators. | Our group's specialty is growth and transport study of thin films grown by Molecular Beam Epitaxy (MBE). Our custom-designed MBE system has a number of unique capabilities that facilitate atomic-scale engineering of a variety of novel material systems. Utilizing these unique capabilities, we are actively investigating topological insulators, complex oxides and their heterostructures. Such heterostructures could yield new physics and devices that are intriguing both intellectually and technologically. We are currently one of the leading groups in thin film topological insulators. | ||
== News == | |||
Aug. 2014: Prof. Oh selected as one of the nationwide twelve Moore Materials Synthesis Investigators: | |||
http://www.moore.org/programs/science/emergent-phenomena-in-quantum-systems/materialssynthesisinvestigators | |||
Revision as of 17:44, 13 August 2014
Our group's specialty is growth and transport study of thin films grown by Molecular Beam Epitaxy (MBE). Our custom-designed MBE system has a number of unique capabilities that facilitate atomic-scale engineering of a variety of novel material systems. Utilizing these unique capabilities, we are actively investigating topological insulators, complex oxides and their heterostructures. Such heterostructures could yield new physics and devices that are intriguing both intellectually and technologically. We are currently one of the leading groups in thin film topological insulators.
News
Aug. 2014: Prof. Oh selected as one of the nationwide twelve Moore Materials Synthesis Investigators: http://www.moore.org/programs/science/emergent-phenomena-in-quantum-systems/materialssynthesisinvestigators