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查看 Scopus 资料
邢 燕霞
物理学院
h-index
1132
引用
20
H-指数
根据储存在 Pure 的刊物以及来自 Scopus 的引用文献数量计算
2004
2024
每年的科研成果
概览
指纹图谱
合作网络
科研成果
(52)
相似学者
(1)
指纹图谱
深入其中 Yanxia Xing 为活跃的研究主题。这些主题标签来自此人的成果。它们共同形成唯一的指纹。
分类
加权
按字母排序
Physics
Black Hole Spin-Flip
6%
Broadband
22%
Carbon Nanotube
9%
Chirality
9%
Condensed Matter Physics
9%
Critical Current
9%
Density Distribution
11%
Density Functional Theory
22%
Electric Fields
16%
Electron Gas
13%
Ettingshausen Effect
9%
Ferromagnetic Film
9%
First Principle
21%
First-Principles
46%
Graphene
72%
Green's Functions
63%
Hall Resistance
13%
Holes (Electron Deficiencies)
16%
Injector
9%
Josephson Junction
9%
Magnetic Field
100%
Magnetic Flux
9%
Magnetization Dynamics
9%
Molecular Cluster
9%
Nanowires
9%
Numerical Solution
9%
Photoelectric Emission
87%
Physics
10%
Quantum Dot
60%
Quantum Hall Effect
18%
Quantum Transport
28%
Quantum Wells
18%
Quasiparticle
9%
Seebeck Effect
6%
Spin Valve
9%
Spin-Orbit Coupling
9%
Spin-Orbit Interaction
58%
Spintronics
16%
Steady State
18%
Time-Dependent Density Functional Theory
9%
Topological Insulator
64%
Transients
50%
Transients
9%
Transport Process
11%
Transport Property
55%
Transport Theory
9%
Tunnel Junction
12%
Tunneling Magnetoresistance
12%
Wave Function
16%
Engineering
Carbon Nanotube
9%
Chain Carbon
18%
Chemical Potential
23%
Cross Bar
9%
Dimensional System
9%
Electron System
9%
External Magnetic Field
6%
Fermi Level
13%
Graphene
13%
Green Function
20%
Magnetic Field
24%
Magnetic Flux
9%
Nanowires
9%
Nonequilibrium
17%
Odd Number
13%
Oscillatory
16%
Oscillatory Behavior
16%
Oxygen Vacancy
9%
Peak Height
6%
Quantum Dot
7%
Quantum Well
9%
Relative Position
6%
Relaxation Process
9%
Relaxation Time
9%
Resonant State
9%
Response Time
9%
Single-Walled Carbon Nanotube
9%
Spin Pump
9%
Superconductor
12%
Thermoelectrics
36%
Transients
9%
Two Dimensional
35%
Material Science
Density
43%
Dephasing
6%
Doping (Additives)
9%
Electron Transfer
5%
Ferroelectric Material
9%
Graphene
75%
Graphitic Carbon Nitride
6%
Heterojunction
9%
Interferometer
9%
Josephson Junction
9%
Monolayers
9%
Nanoribbon
43%
Nanowire
9%
Nitrogen-Doped Graphene
9%
Oxygen Vacancy
9%
Quantum Dot
27%
Superconducting Material
46%
Thermoelectrics
32%
Thin Films
9%
Tunneling Magnetoresistance
12%
