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Enhancement of spin polarization by chaos in graphene quantum dot systems
Lei Ying,
Ying-Cheng Lai
Sensor, Signal and Information Processing Center (SenSIP)
Electrical, Computer, and Energy Engineering, School of (IAFSE-ECEE)
Electrical Engineering
Mathematical and Statistical Sciences, School of (SoMSS)
Knowledge Enterprise (KE)
Research output
:
Contribution to journal
›
Article
›
peer-review
10
Scopus citations
Overview
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Engineering & Materials Science
Graphene quantum dots
100%
Spin polarization
98%
Chaos theory
47%
Electrons
15%
Fermi level
13%
Spintronics
12%
Heavy metals
10%
Graphene
9%
Open systems
9%
Scattering
7%
Polarization
7%
Orbits
6%
Substrates
5%
Physics & Astronomy
chaos
43%
graphene
38%
quantum dots
36%
augmentation
28%
polarization
25%
interactions
10%
heavy metals
7%
spin-orbit interactions
7%
electron spin
6%
scattering
3%
electrons
2%
energy
1%
Chemical Compounds
Chaos (Dynamical)
70%
Spin Polarization
63%
Quantum Dot
14%
Spintronics
10%
Strength
10%
Heavy Metal
6%
Electron Spin
6%
Polarization
5%
Graphene
5%
Shape
5%
Electron Particle
4%
Energy
3%
Reaction Yield
3%
Application
2%