Researcher Resume Tokyo - Hire IT People

Objective

Motivated science and engineering graduate, with extensive experience in computer programming, plasma science, and semiconductor industry, pursuing a career in science or technology. In addition, to enter the field of computer applications with emphasis in designing and developing computer code.

Key Skills

Plasma Physics: processing/diagnostics
Spectroscopy
Pulsed power, Laser/Discharge produced plasmas, X - ray lasers
Lithography Collisional-radiative model, Radiation transport, Ray tracing, Computed tomography
Magneto-hydrodynamics
Molecular dynamics
Coupled ordinary/Partial differential equationsMATLAB, not limited to:
Image/Signal processing
Simulink, Statistical, Design of experiments
Optimization, Model-based toolbox
Deploy tool: Standalone and shared library C/ C++, Microsoft excel, Java, .NET C, C++, Python, Java, FORTRAN
Parallel/Object-oriented programming
Materials studio, Flexible atomic code
MS office suite, Adobe, Latex
Windows, Mac, UNIX

Work Experience

Confidential Tokyo Part-time

Researcher

March

RD: Double pulse lasers (CO2 Nd:YAG) irradiation scheme as a lithography source.
Dynamics of tin target including particle energies and ionization charge states at different laser intensities are presented. Optimum time delay between Nd:YAG and CO2 lasers to increase conversion efficiency is reported.
Damage of Mo/Si multilayer’s mirror by particles (neutral, ion) and radiation is presented.
Constructed 3D molecular dynamics and laser ablation computer codes.
Results presented in journals, conferences, patents, and technical documentations.

Confidential Tokyo Full -time

Assistant Fellow Researcher

October 200 5 - October 2009

RD: Laser and Discharge produced plasmas, lithography sources.
Constructed a massive fully time-dependent collisional-radiative and radiation transport computer program for most of elements in periodic table.
Conversion efficiencies of lithium, xenon, and tin plasmas in extreme ultraviolet sources are presented. Optimum plasma conditions to maximize conversion efficiencies are reported and experimentally demonstrated. Current control, hypocycloidal pinch, and pinch-cusp schemes are proposed and fabricated as promising methods in discharge produced lithium plasma.
Constructed a 1D two-temperature hydrodynamics computer program for laser/beam-matter interaction.
Mentoring graduate students and technicians.

Confidential Tokyo Full-time

Postdoctoral

RD: Discharge produced plasmas, Z-pinch type plasmas, X-ray lasers.
Fast heating scheme for increasing conversion efficiency in discharge produced xenon plasmas is proposed and experimentally demonstrated.
Gain in a recombination X-ray laser at 13.5 nm by mixture of nitrogen and high Z elements is reported.
Constructed a 1D two-temperature magneto-hydrodynamics computer code for discharge produced plasmas.

Confidential Tehran Full-time

Researcher Lecturer

RD: Ion implantation and plasma coating methods.
Nitrogen ion implantation and its effects on wear resistance and surface hardening of stainless steel are experimentally investigated. The material properties are analyzed by analytical equipments, for example, Scanning Electron Microscopy.
Experimental research in fusion plasmas and plasma diagnostics.
The plasma instabilities in a small Tokamak machine are improved by applying resonance helical fields.
The plasma dynamics are investigated by using conventional diagnostic systems such as laser interferometer, electrical and magnetic probes, electron cyclotron emission detector, visible and X-ray spectrometers.
Constructed X-ray computed tomography computer code and Abel inversion program.
Mentoring graduate students and technicians.
Courses taught: Introductory Physics, Thermodynamics and Statistical Physics, Quantum Mechanics.

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