Dr. A. B. Petrin

E-mail: a_petrin@mail.ru (preferable), petrin@nm.ru

 

Theoretical Department of
Institute for High Energy Densities
of
Joined Institute for High Temperatures
of
Russian Academy of Sciences

Address:
Theoretical Department, IHED
Izhorskaya 13, stroenie 2, IVTAN
Moscow, 125412 Russia

Phones&FAX:
HP:+7-926-586-5680
Theor_Department:+7-495-362-5310
FAX: +7-495-362-5310


E-mail addresses:
a_petrin@mail.ru (preferable)
petrin@nm.ru
(alternative)
andrei.petrin@ieee.org
(alternative)

 

CURRENT POSITION:

Leading Scientific Researcher at the Theoretical Department

of the Joined Institute for High Temperatures of

Russian Academy of Sciences, Moscow, Russia.

 

EXPERIENCE:

Leading Scientific Researcher

at the Theoretical Department of the Institute for High Energy Densities of Joined Institute for

High Temperatures of the Russian Academy of Sciences, Moscow (May 2003 - till present);

Senior Researcher

at the Samsung Advanced Institute of Technology, South Korea (May 2002 - May 2003);

Leading Scientific Researcher

at the Theoretical Department of the Institute for High Energy Densities of Associated Institute for

High Temperatures of the Russian Academy of Sciences, Moscow (January 2002 - May 2002);

Leading Scientific Researcher

at the Theoretical Department of the Institute for High Temperatures, Moscow (1995 - December 2001);

Leading Scientific Researcher

at the MHD Research Center of the Institute of High Temperatures, Moscow (1995 - 2000);

Associate Professor (Chair of General Physics)

at the Department of Electronics of the Moscow State University of Forestry (1990-1997);

Engineer and then Scientific Researcher

at the Antenna and Wave-Propagation Department of S.P. Korolev Space Corporation

"Energia", Russia (1983-1990).

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BACKGROUND:

Docent on Chair of Physics from the State Commitee of Russian Federation on High Education 1995 (equivalent to Senior Lecturer, in the UK system,

and to Associate Professor, in the US & Canadian system) ;

Ph.D. from the Moscow Institute of Physics and Technology 1988;

M.Sc. from the Moscow Institute of Physics and Technology 1983.

 

HOME ADDRESS: Korolev, Moscow Region, Russia.

 

REFEREE IN SCIENTIFIC JOURNALS:

 

IOP Journals:

Journal of Plasma Sources Science and Technology;

Journal of Physics D: Applied Physics;

Journal of Physics: Condensed Matter;

Journal of Optics A: Pure and Applied Optics.

Elsevier Journals:

International Journal of Heat and Mass Transfer;

Nuclear Instruments and Methods in Physics Research, A.

Russian Journals:

High Temperature (Teplofizika visokih temperatur);

Journal of Experimental and Theoretical Physics (Zhurnal Eksperimentalno i Teoretichesko Fiziki) .

 

 

RESEARCH INTERESTS

Participated in several research projects:

At the Institute for High Energy Densities of Joined Institute for High Temperatures of the Russian Academy of Sciences, Moscow (January 2002 - till present);

Investigation of influence of electric and magnetic fields on heat and mass transfer in liquids;

fundamentals of electrowetting and electrosplitting;

Investigation of superresolution of lenses with negative refraction and related topics;

Theoretical investigations of nonlinear interaction of electromagnetic waves with magnetized plasma of microwave gas discharges under ECR conditions;  

Numerical modelling of heat transfer during thermo-mechanical data writing and reading; See sketch

Investigation of free convection induced by electric field in dielectrics liquids;

Investigation of the role of an electric field of electrodes in the formation of new phase nuclei in dielectrics.

At the Samsung Advanced Institute of Technology, Suwon, South Korea (May 2002-May 2003);

Designing, engineering escort of manufacturing and tuning for best parameters of microwave

ECR plasma reactor for very large plasma uniformity for 300 mm wafer plasma treatment (two US patents,

see below the list of publications); See sketch

Author of elementary microwave ECR plasma source with permanent magnets for distributed plasma reactors

for very large surface plasma processing (one US patent, see below the list of publications); See sketch

Author of the suggestion and development thermo-mechanical nanoscale data storage device with unique

read/write properties (two US patents, see below the list of publications). See sketch

At the Institute of High Temperatures of the Russian Academy of Sciences (1995 - December 2002);

Theoretical investigations of nonlinear interaction of electromagnetic waves with magnetized plasma of microwave gas

discharges under ECR conditions;

Development, investigation of the integro-differential equation method in the hydrodynamics of an incompressible viscous

fluid and application of the method to mass and heat transfer in fluid and gas.

At the Department of Electronics of the Moscow State University of Forestry (1990-1995);

Theoretical investigations of nonlinear interaction of electromagnetic waves with plasma of microwave gas discharges;

Designing of the microwave part of microwave ECR plasma reactor with traditional magnetic trap and microwave dielectric

window.

At the S.P. Korolev Space Corporation "Energia" (1983-1990);

Designing of many types of microwave antennas and microwave circuits from meters to centimeters wavelength range.

At the Moscow Institute of Physics and Technology (1980-1995).

Designing of many types of microwave antennas and microwave circuits for underground-radar-related research;

Investigation of electromagnetic-waves radiation and propagation in disperse media, particularly the microwave parameters 

of the radar antennas on the surface of air and soil.

 

Specialized in:

PLASMA PHYSICS

designing of microwave, RF and DC plasmatrons for VLSI fabrication;

nonlinear interaction of electromagnetic waves with plasma of gas discharges;

microwave gas discharges, electron-cyclotron gas discharges;

dust particles fabrication and manipulation;

electrodynamics of plasma.

NANOTECHNOLOGY

thermo-mechanical nanoscale data storage (heat transfer modelling during thermo-mechanical data writing and reading );

application of electrowetting and electrosplitting in nanotechnology.

MASS AND HEAT TRANSFER IN LIQUIDS

phase equilibrium in nonuniform electric and magnetic fields;

hydrodynamics, mass and heat transfer in fluid and gas;

fundamentals of electrowetting and electrosplitting.

RADIOPHYSICS

electromagnetic-waves radiation and propagation in disperse media;

radiophysics and underground-radar-related research.

 

PUBLICATION LIST, for the last years:

[1] A. B. Petrin, Integro-differential equation method in the hydrodynamics of an incompressible viscous fluid. //

Journal of Experimental and Theoretical Physics, Vol. 85, No. 4, 1997, pp. 724-727.

[Abstract]

To find the text of the paper, please click here

 

[2] A. B. Petrin, Nonlinear Interaction of Microwave and Plane Magnetoactive Plasma Layer. - IEEE Trans.

on Plasma Sci., vol. 26, no.2, pp.150-158, 1998.

[Abstract] To find the text of the paper, please click here

 

[3] A. B. Petrin, Hysteresis under Electron-Cyclotron Resonance. - the Journal of Technical Physics, vol. 69,

no. 12, pp. 31-37, 1999.

[Abstract in Russian] [Full text in Russian]

 

[4] A. B. Petrin, About Hysteresis Phenomena in Microwave"s Plasmatrons. - Physics of Plasmas, Volume 5,

pp. 3820-3827, November 1998.

[Abstract] [Full text] To find the text of the paper, please click here

 

[5] A. B. Petrin, Interaction of microwave and magnetoactive plasma in microwaves plasmatrons, - Physics

of Plasmas,Volume 6, Number 9, pp. 3607-3614, September 1999.

[Abstract] [Full text] To find the text of the paper, please click here

 

[6] A. B. Petrin, Microwave Plasmatrons for Giant Integrated Circuits Processing, - IEEE Trans. on Plasma Sci.,

vol. 28, no. 1, pp. 288-297, February 2000.

[Abstract] To find the text of the paper, please click here

 

[7] A. B. Petrin: On the Transmission of Microwaves through Plasma Layer, - IEEE Trans. on Plasma Sci., vol. 28,

no. 3, pp. 1000-1008, June 2000.

[Abstract] To find the text of the paper, please click here

 

[8] A.B. Petrin, On the Effects of Electron Gas Viscosity on the Interaction of Microwave and Magnetoactive Plasma,

- IEEE Trans. on Plasma Sci., vol. 28, no. 5, pp. 1763-1770, October 2000.

[Abstract] To find the text of the paper, please click here

 

[9] A.B. Petrin, Microwave Plasmatrons for Fabrication of High-Density Integrated Circuits, Russian Microelectronics,

Vol. 30, No. 3, pp. 160-172, May 2001.

[Abstract] To find the text of the paper, please click here

 

[10] A.B. Petrin: Transmission of Microwaves through Magnetoactive Plasma, - IEEE Trans. on Plasma Sci., vol. 29,

no. 3, pp. 471 - 478, June 2001.

[Abstract] To find the text of the paper, please click here

 

[11] A.B. Petrin: Microwave Plasmatrons for Fabrication of High-Density Integrated Circuits, Russian Microelectronics,

Vol. 30, No. 3, 2001, pp. 160-172. (Translated from Mikroelektronika, Vol. 30, No. 3, 2001, pp. 189-202).

[Abstract] To find the text of the paper, please click here

 

[12] V. S. Vorob'ev, S. P. Malyshenko and A. B. Petrin: The role of an electrode in the formation of new phase nuclei in

dielectrics, J. Phys. D: Appl. Physics, Vol. 35, 2002, pp. 257-266.

[Abstract] To find the text of the paper, please click here

 

[13] A. B. Petrin: Interaction of a Microwave and a Low-Pressure Plasma under Electron Cyclotron Resonance,

Mikroelektronika, Vol. 31, No. 1, 2002, pp. 27-36.

[Abstract] To find the text of the paper, please click here

 

[14] A. B. Petrin: On the possibility of radio-communication through the shock wave plasma layer,

Report on 31 Zvenigorod Conference on Plasma Physics and Fusion, February 20, 2004.

 

[15] V. S. Vorob'ev, S. P. Malyshenko and A. B. Petrin: On the effect of field traps in boiling of dielectric liquids

in nonuniform electric fields, High Temperature. Vol. 43, No. 2, 2005, pp. 240-246. Translated from Teplofizika

Vysokikh Temperatur, Vol. 43, No. 2, 2005, pp. 249-255.

To find the text of the paper, please click here

 

[16] A. B. Petrin, J. H. Hur, J. K. Shin: Plasma generation system having a refractor , US Patent

No. US 7,015,413 B2, Date of Patent: Mar. 21, 2006.

To find the text of the paper, please click here

 

[17] A. B. Petrin: Electron Cyclotron Resonance Used in Low-Pressure Microwave Plasma Reactors with

Permanent Magnets, Russian Microelectronics, Vol. 34, No. 4, 2005, pp. 210-216.

(Translated from Mikroelektronika, Vol. 34, No. 4, 2005, pp. 251-259).

[Abstract] To find the text of the paper, please click here

 

[18] A. B. Petrin: Heating of electrons in ECR microwave low-pressure reactors, Teplofizika Vysokikh Temperatur,

Vol. 43, No. 5, 2005, pp. 657-665.

To find the text of the paper, please click here

 

[19] A. B. Petrin: Sustaining Mechanisms of the ECR Heating of Electrons in Low-Pressure Microwave Plasmas

under Magnetic Multipole Confinement, Russian Microelectronics, Vol. 34, No. 5, 2005, pp. 295-308.

Translated from Mikroelektronika, Vol. 34, No. 5, 2005, pp. 352-366.

To find the text of the paper, please click here

 

[20] A. B. Petrin: Investigation of ECR heating of electrons in multi-polar magnetic systems and designing

ECR microwave low-pressure plasma reactors, Teplofizika Vysokikh Temperatur, Vol. 44, No. 1, pp. 32-43, 2006.

To find the text of the paper, please click here

 

[21] A. B. Petrin, J. K. Shin, J. J. Oh, S. G. Kim, J. H. Hur,: Elementary plasma source and plasma generation

apparatus using the same, US Patent No. US 7,081,710 B2, Date of Patent: Jul. 25, 2006.

To find the text of the paper, please click here

 

[22] A. B. Petrin: Utilization of ECR Mechanism of Electrons Heating in Multi-Polar Magnetic

Systems of Low-Pressure Plasma Reactors, IEEE Trans. on Plasma Sci., Vol. 34, No. 1, February 2006, pp. 70-79.

To find the text of the paper, please click here

 

[23] A. B. Petrin: Nanoscale Digital Data Storage Device, US Patent No. US 7,355,955 B2,

Date of Patent: Apr. 8, 2008.

To find the text of the paper, please click here

 

[24] A. B. Petrin: Actuator System for Nanoscale Movement, US Patent No. US 7,393,175 B2.

Date of Patent: July 1, 2008.

To find the text of the paper, please click here

 

[25] A. B. Petrin: Investigation of Sensitivity of Thermomechanical Data Reading, Russian Microelectronics, Vol. 34, No. 6,

2005, pp. 365-372. Translated from Mikroelektronika, Vol. 34, No. 6, pp. 431-439, 2005.

To find the text of the paper, please click here

 

[26] A. B. Petrin: Reading Sensitivity of a New Thermomechanical Data-Storage Technique: The Effect of Reducing Probe

Dimensions, Russian Microelectronics, Vol. 35, No. 2, pp. 105-115, 2006. Translated from Mikroelektronika, Vol. 35,

No. 2, pp. 126-138, 2006.

To find the text of the paper, please click here

 

[27] A. B. Petrin: ECR Heating Mechanism of Electrons in Multi-polar Magnetic Systems and Optimization of Microwave

Plasma Reactors with Permanent Magnets, Report on Annual Moscow Workshop on the Non-ideal Plasma Physics (NPP-2005),

Presidium of Russian Academy of Science, 30th November - 1st December, 2005.

 

[28] V. S. Vorob'ev, S. P. Malyshenko and A. B. Petrin: Electrically Induced Convection in Dielectric Liquids and

Its Application for Heat Transfer Control, Teplofizika Vysokikh Temperatur, Vol. 44, No. 6, pp. 892-902, 2006.

To find the text of the paper, please click here

 

[29] A. B. Petrin: Reading Sensitivity of a Thermomechanical Data-Storage Technique: The Reducing Data Reading

Time and Energy Consumption, Journal of Nanoelectronics and Optoelectronics, Vol. 1, No. 2, pp. 251-257, 2006

To find the text of the paper, please click here

 

[30] A. B. Petrin: Ultimate Thermomechanical Read Rate from AFM Data Storage, Russian Microelectronics,

Vol. 35, No. 6, pp. 382-391, 2006.

To find the text of the paper, please click here

 

[31] A. B. Petrin: About Sensitivity of Thermomechanical Method of Data Reading, Teplofizika Vysokikh Temperatur,

Vol. 44, No. 4, pp. 595-603, 2006.

To find the text of the paper, please click here

 

[32] A. B. Petrin: Electric Field Singularity on the Line of Wetting of Dielectric Surface // Teplofizika Vysokikh Temperatur,

Vol. 46, No. 1, 2008, pp. 23-29.

(Translated in English as A. B. Petrin: Electric Field Singularity on the Line of Wetting of

Dielectric Surface // High Temperature, 2008, Vol. 46, No. 1, pp. 19-24.)

To find the text of the paper, please click here

 

[33] A. B. Petrin, About Instability of Cone on Liquid Surface in Electric Field // Journal of Experimental and Theoretical

Physics, Vol. 132, No. 12 December 2007, p. 1409-1414.

To find the text of the paper, please click here

 

[34] A. B. Petrin: Axisymmetric Instabilities of Conducting Liquid Cylinder: Influence of Electric Field, Teplofizika Vysokikh

Temperatur, Vol. 46, No. 3, 2008, pp. 325-330.

To find the text of the paper, please click here

 

[35] A. B. Petrin, Electrocapillary Instability of a Conducting Liquid Cylinder// Journal of

Experimental and Theoretical Physics, 2008, Vol. 106, No. 5, pp. 963-973.

Original Russian Text, published in Zhurnal Eksperimentalnoi i Teoreticheskoi Fiziki,

2008, Vol. 133, No. 5, pp. 1101-1112.

To find the text of the paper, please click here

 

[36] A. B. Petrin, Electromagnetic Wave Propagation from a Point Source in Air through a

Medium with a Negative Refractive Index // JETP Letters, 2008, Vol. 87, No. 9, pp. 464-469.

Original Russian Text, published in Pisma v Zhurnal Eksperimentalnoi i Teoreticheskoi Fiziki, 2008, V. 87, No. 9,

pp. 550-555.

To find the text of the paper, please click here

 

[37] A. B. Petrin, A Point Radiator Parallel to a Plane Layer with Negative Refractive Index //

Journal of Experimental and Theoretical Physics, 2008, Vol. 107, No. 3, pp. 364-373(in English),

Original Russian Text, published in Zhurnal Eksperimentalnoi i Teoreticheskoi Fiziki, 2008, V. 134, No. 3,

pp. 436-446.

To find the text of the paper, please click here

 

[38] A. B. Petrin: The Instability which Leads to the Splitting of a Conducting Liquid Cylinder

by the Current Flowing through, High Temperature, 2009, Vol. 47, No. 4, pp. 472-479.

Original Russian Text, published in Teplofizika Vysokikh Temperatur, 2009, V. 47, No. 4, pp. 498-505.

To find the text of the paper, please click here

 

[39] A. B. Petrin: How the Thickness of a Liquid Helium Film Influences the Spectrum of

Electrons Localized above Its Surface // Journal of Experimental and Theoretical Physics,

Vol. 108, No. 2, pp. 292-300, 2009.

Original Russian Text published in Zhurnal Eksperimentalnoi i Teoreticheskoi Fiziki, 2009, V. 135, No. 2,

pp. 330-339.

To find the text of the paper, please click here

 

[40] A. B. Petrin: Thermionic Field Emission of Electrons from Metals and Explosive Electron

Emission from Micropoints//Journal of Experimental and Theoretical Physics, V. 109, No. 2, 2009.

Original Russian Text published in Zhurnal Eksperimentalnoi i Teoreticheskoi Fiziki, 2009, V. 136,

No. 2, pp. 369-376

To find the text of the paper, please click here

 

[41] A. Petrin: Nanofocusing of Surface Plasmon Polaritons by the Tapered Metallic Plasmonic Waveguide:

Optimal Angle Near the Apex, Journal of Nanoelectronics and Optoelectronics, Vol. 5, 55–58, 2010.

To find the text of the paper, please click here

 

[42] A. B. Petrin: Thermionic-Field Emission of Electrons from Conical Metal Points, High Temperature,

Vol. 48, No. 3, pp. 305–314, 2010.

Original Russian Text published in Teplofizika Vysokikh Temperatur, Vol. 48, No. 3, pp. 323–332, 2010.

To find the text of the paper, please click here

 

[43] A. B. Petrin: On Thermofield Emission of Electrons from Metallic Tips, Plasma Physics Reports,

Vol. 36, No. 7, pp. 627–635, 2010.

Original Russian Text published in Fizika Plazmy, Vol. 36, No. 7, pp. 671–679, 2010.

 

[44] Andrey Petrin: Application of Media with Negative Refraction Index to Electromagnetic Imaging.

Fundamental Aspects, Wave Propagation in Materials for Modern Applications, Andrey Petrin (Ed.),

ISBN: 978-953-7619-65-7, INTECH (2010).

CLICK TO VIEW THE BOOK COVER

Free online edition of this book available from: www.sciyo.com and more particular from:

http://sciyo.com/articles/show/title/application-of-media-with-negative-refraction-index-to-electromagnetic-imaging-fundamental-aspects-

 

[45] A. Petrin: Nanofocusing of Surface Plasmons at the Apex of Metalic Probe Tips,

Journal of Nanoelectronics and Optoelectronics, Vol. 5, No. 3, pp. 310-314, 2010.

To find the text of the paper, please click here

 

[46] A. B. Petrin: Electric Field Singularity at the Wetting Line of Dielectric Surface, High Temperature,

Vol. 49, No. 1, pp. 23–27, 2011.

Original Russian Text published in Teplofizika Vysokikh Temperatur, Vol. 49, No. 1, pp. 23–27, 2011.

To find the text of the paper, please click here

 

[47] A. B. Petrin: Heat Effect of Thermal-Field Emission of Electrons from Metal, High Temperature,

Vol. 49, No. 4 pp. 476–480, 2011.

Original Russian Text published in Teplofizika Vysokikh Temperatur, Vol. 49, No. 4, pp. 492–496, 2011.

To find the text of the paper, please click here

 

[48] A. B. Petrin: On the physical interpretation of some types of three-dimensional harmonic mappings //

Preprint at <http://arxiv.org/abs/1205.0742> (2011).

 

[49] Andrey Petrin: Nanofocusing of Surface Plasmons at the Apex of Metallic Tips and at the Sharp Metallic Wedges.

Importance of Electric Field Singularity, Wave Propagation, Andrey Petrin (Ed.), ISBN: 978-953-307-275-3, InTech, (2011).

Available free from:

http://www.intechopen.com/articles/show/title/nanofocusing-of-surface-plasmons-at-the-apex-of-metallic-tips-and-at-the-sharp-metallic-wedges-impor

 

[50] A. B. Petrin: Two Regimes of Nanofocusing of the Surface PlasmonPolariton Wave at the Vertex

of the Metal Micropoint, High Temperature, Vol. 50, No. 1, pp. 15–20, 2012.

Original Russian Text published in Teplofizika Vysokikh Temperatur, Vol. 50, No. 1, pp. 18–23, 2012.

To find the text of the paper, please click here

 

[51] A. B. Petrin: Notes on the Microscopic Theory of Dielectric Polarization, High Temperature, Vol. 51, No. 2, pp. 147–152, 2013.

Original Russian Text published in Teplofizika Vysokikh Temperatur, Vol. 51, No. 2, pp. 170–175, 2013.

To find the text of the paper, please click here

 

[52] Andrey Petrin: On the Physical Interpretation of Some Types of Three-Dimensional Harmonic Mappings,

Advanced Science Focus, Vol. 1, pp. 85–95, 2013. www.aspbs.com

 

[53] A. B. Petrin: Electron Energy Levels Localized above Surface of Inert Film with Address Electrodes //

Journal of Experimental and Theoretical Physics, Vol. 143, No. 3, pp. 557-568, 2013.

To find the text of the paper, please click here

 

[54] A. B. Petrin: On the resolution of lenses made of a negative-index material, Quantum Electronics, Vol. 43, No. 9, pp. 814 – 818, 2013.

Original Russian Text published in Kvantovaya Elektronika, Vol. 43, No. 9, pp. 814–818, 2013.

To find the text of the paper, please click here

 

[55] A. B. Petrin: On the Resolution and Superresolution of Optical Systems,

Journal of Nanoelectronics and Optoelectronics, Vol. 9, No. 1, pp. 89-93, 2014.

To find the text of the paper, please click here

 

Thanks a lot for your interest !

Last modified: June 9, 2014.

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