Lingyuan Gao Source Confirmed
Affiliation confirmed via AI analysis of OpenAlex, ORCID, and web sources.
Researcher
University of Arkansas at Fayetteville
faculty
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Biography and Research Information
OverviewAI-generated summary
Lingyuan Gao's research investigates phenomena related to ferroelectricity, multiferroicity, and topological structures, often with an emphasis on photoinduced control. Recent publications explore the large bulk piezophotovoltaic effect in 2H-MoS2, phonon-assisted ballistic current from first-principles calculations, and the role of metal cation s lone-pairs in halide perovskites. Gao's work also delves into dynamical control of topology in polar skyrmions via twisted light and photoinduced tuning of ferroelectricity in sliding ferroelectrics. Further research examines intrinsic Fermi-surface contributions to the bulk photovoltaic effect and dynamical multiferroicity induced by the orbital angular momentum of light in nonmagnetic materials. Gao has 49 publications with 622 citations and an h-index of 14.
Metrics
- h-index: 14
- Publications: 49
- Citations: 622
Selected Publications
- Poincaré sphere engineering of dynamical ferroelectric topological solitons (2025) DOI
- Large Photoinduced Tuning of Ferroelectricity in Sliding Ferroelectrics (2024) DOI
- Effective gyration of polar vortex arrays controlled by high orbital angular momentum of light (2024) DOI
- Dynamical Control of Topology in Polar Skyrmions via Twisted Light (2024) DOI
- Dynamical Multiferroicity and Magnetic Topological Structures Induced by the Orbital Angular Momentum of Light in a Nonmagnetic Material (2023) DOI
- Photoinduced control of ferroelectricity in hybrid-improper ferroelectric superlattices (2023) DOI
- Dynamical control of topology in ferroelectric skyrmions via twisted light (2023) DOI
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