Plasma and Materials Science by Molecular Dynamics

Carbon Nanotube Accelerator

>> Animation Movies

Relativistic and electromagnetic molecular dynamics
Microwave Heating of Water and
Saline Solution...
A planetary shock and the solar wind
"Giant Molecules" Grosberg and Khohoolov Japan translated with a new chapter

Microwave heating of water & ice

DNA in Nanopores - Counterion
condensation and coion depletion

Copyright(C) 2002-2025 Chubu Univesity, Motohiko Tanaka, Ph.D.. All rights reserved

Method and Tools of
Molecular Dynamics
First Principle Molecular
Dynamics
Cover pictures
Ionic Soft Condensed
Matters

Charge inversion

Opteron clusters
with Infiniband

Maroon Bells, Aspen, Colorado, USA

Author's Pages and Photos

Publication & Related Activities
mtanaka@isc.chubu.ac.jp

Motohiko Tanaka, Chubu University
1200 Matsumoto-cho, Kasugai, Japan

Microwave Heating and
Control of Materials

Carbon Nanotube
Accelerator

1. Carbon nanotube accelerotor, 2.Microwave heating of materials (dielectric, magnetic oxides, Heisenberg model),
3.Ionic soft condensed matters (Polymers, Charge inversion, DNA and membrane), 4. First principle molecular dynamics
(Quantum mechanics), 5. High-temperature plasmas (Magnetic reconnection, Mesoscale particle code, Planetary
shocks), 6.Methodology of molecular dynamics simulation 7. Published papers and books
Video movies of molecular dynamics simulations


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Japanese English

Ice and methane hydrate: MDTip5pWater-8.pdf
Figure: Charge inversion of a DNA rod

Heating of Water and Ice by Far-Infrered
Electromagnetic Waves (FPMD)

Classical and Quantum Mechanical
Molecular Dyanmics

Planetary shock

Wave instabilities, plasma heating
Magnetic reconnection
Macro-particle simulation
High Temperature Plasmas

Graphite erosion by hydrogen adsorption

Molecular Dynamics Simulation

DNA in Nanopores