Suyash Rijal Data-verified
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Biography and Research Information
OverviewAI-generated summary
Research by Suyash Rijal focuses on the dynamics and control of topological defects and emergent phenomena in ferroelectric and magnetic materials. Recent work investigates spherical ferroelectric solitons and the stability of ferroelectric bubble domains, with publications in 2023 and 2024. Rijal has also studied the control of topological defect transitions in nanoscale lead zirconate titanate heterostructures and the design of frustration in two-dimensional magnetic systems through uniaxial strain. Collaborations are central to this research, with multiple shared publications with Yousra Nahas, Sergei Prokhorenko, and Laurent Bellaiche at the University of Arkansas at Fayetteville. Rijal's work includes investigations into the formation mechanisms of quasiordered superstructures of electric bubbles and quasihexagonal arrays of electric-skyrmion bubbles in thin-film ferroelectrics.
Metrics
- h-index: 5
- Publications: 9
- Citations: 110
Selected Publications
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Formation mechanism of quasiordered superstructures of electric bubbles (2025)
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Quasihexagonal arrays of electric-skyrmion bubbles in thin-film ferroelectrics: Pattern formation and structure (2024)
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Dynamics of Polar Vortex Crystallization (2024)
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Spherical ferroelectric solitons (2023)
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Stability of ferroelectric bubble domains (2023)
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Controlling topological defect transitions in nanoscale lead zirconate titanate heterostructures (2021)
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Designing frustration in two-dimensional magnetic systems via the application of uniaxial strain (2021)
Collaboration Network
Top Collaborators
- Spherical ferroelectric solitons
- Stability of ferroelectric bubble domains
- Controlling topological defect transitions in nanoscale lead zirconate titanate heterostructures
- Designing frustration in two-dimensional magnetic systems via the application of uniaxial strain
- Dynamics of Polar Vortex Crystallization
Showing 5 of 8 shared publications
- Spherical ferroelectric solitons
- Stability of ferroelectric bubble domains
- Controlling topological defect transitions in nanoscale lead zirconate titanate heterostructures
- Dynamics of Polar Vortex Crystallization
- Dynamics of polar vortex crystallization
Showing 5 of 8 shared publications
- Spherical ferroelectric solitons
- Stability of ferroelectric bubble domains
- Controlling topological defect transitions in nanoscale lead zirconate titanate heterostructures
- Dynamics of Polar Vortex Crystallization
- Dynamics of polar vortex crystallization
Showing 5 of 8 shared publications
- Spherical ferroelectric solitons
- Stability of ferroelectric bubble domains
- Controlling topological defect transitions in nanoscale lead zirconate titanate heterostructures
- Stability of ferroelectric bubble domains
- Spherical ferroelectric solitons
- Stability of ferroelectric bubble domains
- Controlling topological defect transitions in nanoscale lead zirconate titanate heterostructures
- Stability of ferroelectric bubble domains
- Spherical ferroelectric solitons
- Stability of ferroelectric bubble domains
- Controlling topological defect transitions in nanoscale lead zirconate titanate heterostructures
- Stability of ferroelectric bubble domains
- Quasihexagonal arrays of electric-skyrmion bubbles in thin-film ferroelectrics: Pattern formation and structure
- Formation mechanism of quasiordered superstructures of electric bubbles
- Designing frustration in two-dimensional magnetic systems via the application of uniaxial strain
- Controlling topological defect transitions in nanoscale lead zirconate titanate heterostructures
- Quasihexagonal arrays of electric-skyrmion bubbles in thin-film ferroelectrics: Pattern formation and structure
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