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Add to Calendar 2/12/2018 2:00 pm 2/13/2018 America/Chicago Special Condensed Matter Seminar: "Interfacial Engineering of Quantum Materials." DESCRIPTION:

Quantum materials are fascinating platforms where macroscopic quantum phenomena occur. A prominent example is the superconducting condensate, which exhibits zero resistance and perfect diamagnetism. In this talk I will elucidate the principles of interfacial engineering and co-operative interactions through studies of bulk superconductors, and demonstrate how I implement these concepts in fabricating an iron selenide/strontium titanate interfacial superconductor. In the first example, I map out the electronic band structure and quantify electron-phonon interactions of calcium-intercalated graphite. I discover a key phonon mode, enabled by the interface between calcium superlattice and graphene sheets, which facilitates superconductivity in this compound. In the second example, I combine two ultrafast time-domain experiments to study an iron selenide superconductor. By precisely determining the atomic displacements and electronic energy shifts, I discover a co-operative interplay between electron-phonon and electron-electron interactions, which is crucial for unconventional superconductivity. Following the acquired insight, I fabricate ultrathin iron selenide on strontium titanate substrates using molecular beam epitaxy and investigate the interfacial superconductivity. Characterized by in situ transport and in situ photoemission spectroscopy, the transition temperature of the interfacial layer is one order of magnitude higher than the counterpart for bulk iron selenide. This high transition temperature persists even when additional iron selenide layers are deposited. This study sets the foundation for manipulating superconductivity and other quantum phenomena via interfacial engineering.

\n\nSPEAKER:

Shuolong Yang, Cornell Univesity

190 ESB

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Special Condensed Matter Seminar: "Interfacial Engineering of Quantum Materials."

Speaker Shuolong Yang, Cornell Univesity
Date: 2/12/2018 - 2/13/2018
Time: 2 p.m.
Location:

190 ESB

Event Contact: Marjorie Gamel
217-333-3762
mgamel@illinois.edu
Sponsor:

Department of Physics

Event Type: Seminar/Symposium
 

Quantum materials are fascinating platforms where macroscopic quantum phenomena occur. A prominent example is the superconducting condensate, which exhibits zero resistance and perfect diamagnetism. In this talk I will elucidate the principles of interfacial engineering and co-operative interactions through studies of bulk superconductors, and demonstrate how I implement these concepts in fabricating an iron selenide/strontium titanate interfacial superconductor. In the first example, I map out the electronic band structure and quantify electron-phonon interactions of calcium-intercalated graphite. I discover a key phonon mode, enabled by the interface between calcium superlattice and graphene sheets, which facilitates superconductivity in this compound. In the second example, I combine two ultrafast time-domain experiments to study an iron selenide superconductor. By precisely determining the atomic displacements and electronic energy shifts, I discover a co-operative interplay between electron-phonon and electron-electron interactions, which is crucial for unconventional superconductivity. Following the acquired insight, I fabricate ultrathin iron selenide on strontium titanate substrates using molecular beam epitaxy and investigate the interfacial superconductivity. Characterized by in situ transport and in situ photoemission spectroscopy, the transition temperature of the interfacial layer is one order of magnitude higher than the counterpart for bulk iron selenide. This high transition temperature persists even when additional iron selenide layers are deposited. This study sets the foundation for manipulating superconductivity and other quantum phenomena via interfacial engineering.

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