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Mia Jin
Assistant Professor
,
Ken and Mary Alice Lindquist Department of Nuclear Engineering
h-index
430
Citations
11
h-index
Calculated based on number of publications stored in Pure and citations from Scopus
2016
2024
Research activity per year
Overview
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Network
Grants & Projects
(1)
Research output
(34)
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(6)
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Dive into the research topics where Mia Jin is active. These topic labels come from the works of this person. Together they form a unique fingerprint.
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Engineering & Materials Science
Radiation damage
100%
Defects
82%
Irradiation
62%
Radiation
57%
Helium
31%
Swelling
31%
Phonons
31%
Metals
30%
Grain boundaries
28%
Superlattices
26%
Ions
26%
Phonon scattering
25%
Fluorspar
23%
Ion bombardment
22%
Thermal conductivity
22%
Roll bonding
21%
Multilayers
20%
Molecular dynamics
20%
Transmission electron microscopy
19%
Laminates
19%
Degassing
18%
Vacancies
17%
Protons
17%
Anisotropy
16%
Burgers vector
16%
Uranium
16%
Composite materials
16%
Tungsten
15%
Oxygen
15%
Grain growth
15%
Crystalline materials
14%
Boiling liquids
14%
Microstructural evolution
14%
Crystals
14%
Deposits
14%
Heavy ions
13%
Nitrogen
13%
Point defects
12%
Thermodynamics
12%
Superconductivity
10%
Corrosion
10%
Machine learning
10%
Atoms
10%
Materials properties
9%
Phase boundaries
9%
Thermal desorption spectroscopy
9%
Oxidation resistance
8%
Lattice vibrations
8%
Ductility
8%
Chemical analysis
8%
Chemical Compounds
Dislocation Loop
84%
Interstitial
49%
Phonon
31%
Simulation
30%
Molecular Cluster
30%
Grain Boundary
29%
Thermal Conductivity
26%
Dose
26%
Alloy
24%
Crystal Point Defect
22%
Nanocrystalline Metal
22%
Interatomic Potential
20%
Heavy Ion
19%
Amorphous Material
19%
Multilayer
18%
Diffusion
18%
Interfacial Structure
18%
Degasification
18%
Fluorite
17%
Size Distribution
16%
Metal
15%
Grain Growth
15%
Energy
15%
Resistance
15%
Anisotropy
15%
Molecular Dynamics
14%
Radiation Effect
14%
Superlattice
14%
Composite Material
14%
Atomic Collision
13%
Heterogeneity
13%
Tungsten
13%
Reduction
12%
Ductility
12%
Microstructure
11%
Fuel
11%
Displacement
11%
Rolling Process
11%
Liquid Film
11%
Purity
10%
Length
10%
Neutron Irradiation
10%
Nanomaterial
10%
Strain
9%
Atomistic Simulation
9%
Cluster Structure
9%
Proton
9%
Thermodynamics
8%
Superconductivity
8%
Physics & Astronomy
defects
37%
voids
37%
swelling
29%
radiation damage
27%
interstitials
24%
metals
24%
irradiation
22%
oxygen supply equipment
21%
thermal conductivity
19%
film boiling
19%
machine learning
18%
outgassing
17%
elastic anisotropy
17%
fluorite
17%
ion irradiation
14%
phonons
14%
uranium
14%
simulation
14%
radiation
13%
superlattices
13%
deposits
12%
corrosion
12%
dosage
12%
damage
12%
tungsten
12%
helium
11%
boiling
10%
grain boundaries
10%
nitrogen
10%
ions
9%
symmetry
9%
protons
9%
anisotropy
9%
bubbles
8%
composite materials
8%
structural failure
7%
scattering
7%
coalescing
6%
radiation effects
6%
nuclear fuels
6%
heavy ions
6%
molecular dynamics
6%
operational problems
6%
gases
5%
curved surfaces
5%
chimneys
5%
integrity
5%
atoms
5%
sinking
5%