ライブラリ登録: Guest
Begell Digital Portal Begellデジタルライブラリー 電子書籍 ジャーナル 参考文献と会報 リサーチ集
Telecommunications and Radio Engineering
SJR: 0.202 SNIP: 0.2 CiteScore™: 0.23

ISSN 印刷: 0040-2508
ISSN オンライン: 1943-6009

巻:
巻 78, 2019 巻 77, 2018 巻 76, 2017 巻 75, 2016 巻 74, 2015 巻 73, 2014 巻 72, 2013 巻 71, 2012 巻 70, 2011 巻 69, 2010 巻 68, 2009 巻 67, 2008 巻 66, 2007 巻 65, 2006 巻 64, 2005 巻 63, 2005 巻 62, 2004 巻 61, 2004 巻 60, 2003 巻 59, 2003 巻 58, 2002 巻 57, 2002 巻 56, 2001 巻 55, 2001 巻 54, 2000 巻 53, 1999 巻 52, 1998 巻 51, 1997

Telecommunications and Radio Engineering

DOI: 10.1615/TelecomRadEng.v72.i1.40
pages 49-56

THE USE OF ELECTROMAGNETIC MICROWAVE IMPACTS ON OPTICAL DISKS FOR URGENT DESTRUCTION OF INFORMATION RECORDED ON THE DISKS

Vladimir B. Avdeev
Military Institute of Radioelectronics, Voronezh; State Research and Testing Institute of Problems of Technical Information Protection, Federal Service on Technical and Export Control, Voronezh, Russian Federation
N. G. Denisenko
State Research and Testing Institute of Problems of Technical Information Protection, Federal Service on Technical and Export Control, Voronezh, Russian Federation
S. A. Pyrochkin
State Research and Testing Institute of Problems of Technical Information Protection, Federal Service on Technical and Export Control, Voronezh, Russian Federation

要約

The results of experimental studies of the possibilities for urgent information destruction on various types of optical media, using electromagnetic microwave radiation in a special chamber of the microwave furnace, are presented.

参考

  1. Badretdinov, M. M., Increasing the uniformity of electromagnetic fields in cylindrical working chambers.

  2. http://www.dvd-r.ru/news/technology/cd_destroyers.htm.

  3. http://www.nero.ru.

  4. Pushner, G. , High-Frequency Heating.

  5. Sedelnikov, Yu. E. and Stepanov, V. V. , Increasing the uniformity of electromagnetic field energy in microwave units with multi-element excitations.

  6. Sokolov, I. V. , The modern state and trends of development of magnetron for microwave heating in industry and medicine.

  7. Sokolov, K. V. , Magnetrons for microwave heating and microwave sources.


Articles with similar content:

RESONATOR APERTURE MICROWAVE SENSORS FOR SMALL OBJECTS PROPERTIES TESTING
Telecommunications and Radio Engineering, Vol.76, 2017, issue 18
A.V. Levchenko, A. V. Polishchuk, A. M. Prokaza, I. M. Shcherban, Yu. Ye. Gordienko
THE STATE-OF-THE-ART OF DIPOLE, DIELECTRIC, AND PLASMA ANTENNAS IN THE CONTEXT OF HISTORICAL EVOLUTION OF ANTENNA SYSTEMS
Telecommunications and Radio Engineering, Vol.76, 2017, issue 5
V. V. Ovsyanikov
Optimization of the Millimeter Wave Multiplier Chains for Local Oscillators
Telecommunications and Radio Engineering, Vol.53, 1999, issue 2
P. I. Mospan, L. P. Mospan
Microwave Plasma Technology of Pulverized Coal Combustion
Telecommunications and Radio Engineering, Vol.61, 2004, issue 7-12
Dmitry M. Vavriv, P. M. Kanilo, V. I. Kazantsev, S. V. Grytsayenko, K. Schunemann, A. V. Tymchik, N. I. Rasyuk
THE INFLUENCE OF RF SWITCHES UPON THE PROPERTIES OF RECONFIGURABLE ANTENNAS. PART 1: SINGLE-FREQUENCY EXCITATION
Telecommunications and Radio Engineering, Vol.76, 2017, issue 11
D. S. Gavva, E. A. Medvedev