Selected Recent Publications

• Physics of Oscillations. Educational software package. Physics Academic Software, American Institute of Physics, 1997. European Academic Software Award winner (EASA’96), Ninth Annual Educational Software Contest winner (1998, Computers in Physics magazine). See cover and annotation.
• Concise Handbook of Mathematics and Physics. CRC Press (USA), 1997 (528 pp.) See annotation.
• Parametric Resonance. Computing in Science and Engineering (CiSE), May – June 1999, pp. 76 – 83. See abstract and full pdf version (163 KB).
• The Rigid Pendulum – an Antique but Evergreen Physical Model. European Journal of Physics, v. 20, No 6 (November 1999) pp. 429 – 441. See abstract and full pdf version (260 KB).
• Planets and Satellites. Educational software package. Physics Academic Software, American Institute of Physics, 1998. 10th Annual Educational Software Contest winner (1999, Computing in Science and Engineering magazine). See cover, annotation, summary, and a journal review (pdf, 564 KB).
• The Velocity Hodograph for an Arbitrary Keplerian Motion. European Journal of Physics, v. 21, No 4 (July 2000) pp. 297 – 302. See abstract and full pdf version (134 KB).
• Regular Keplerian Motions in Classical Many-Body Systems. European Journal of Physics, v. 21, No 5 (September 2000) pp. 465 – 482. See abstract and full pdf version (271 KB).
• Relative Motion of Orbiting Bodies. American Journal of Physics, v. 69, No 1 (January 2001) pp. 63 – 67. See abstract and full pdf version (171 KB).
• On the Dynamic Stabilization of an Inverted Pendulum. American Journal of Physics, v. 69, No 7 (July 2001) pp. 755 – 768. See abstract and full pdf version (260 KB).
• Regular and Chaotic Motions of the Parametrically Forced Pendulum: Theory and Simulations. Computational Science – ICCS 2002, Springer Verlag, LNCS 2331, pp. 1154 – 1169, 2002. See abstract and full pdf version (316 KB).
• Subharmonic Resonances of the Parametrically Driven Pendulum. Journal of Physics A: Mathematical and General, v. 35 (2002) pp. 6209 – 6231. See abstract and full pdf version (404 KB).
• A Dynamical Picture of the Oceanic Tides. American Journal of Physics, v. 70, No 10 (October 2002) pp. 1001 – 1011. See abstract and full pdf version (260 KB).
• Families of Keplerian Orbits. European Journal of Physics, v. 24, No 2 (March 2003) pp. 175 – 183. See abstract and full pdf version (160 KB).
• Square-wave excitation of a linear oscillator. American Journal of Physics, v. 72, No 4 (April 2004) pp. 469 – 476. See abstract and full pdf version (310 KB).
• Parametric excitation of a linear oscillator. European Journal of Physics, v. 25, No 4 (July 2004) pp. 535 – 554. See abstract and full pdf version (314 KB).
• Parametric resonance in a linear oscillator at square-wave modulation. European Journal of Physics, v. 26, No 1 (January 2005) pp. 157 – 174. See abstract and full pdf version (588 KB).
• Peculiarities of simulations in nonlinear systems. «Computer Simulations – 2005». Proceedings of 6th International Conference, St. Petersburg, June 29 – July 2, 2005. See full pdf version (72 KB).
• Inertial rotation of a rigid body. European Journal of Physics, v. 27, No 4 (July 2006) pp. 913 – 922. See abstract and full pdf version (270 KB).
• Precession and nutation of a gyroscope. European Journal of Physics, v. 27, No 5 (September 2006) pp. 1071 – 1081. See abstract and full pdf version (270 KB).
• Extraordinary oscillations of an ordinary forced pendulum. European Journal of Physics, v. 29, No 2 (March 2008) pp. 215 – 233. See abstract and full pdf version (1.56 MB).

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Computer Simulations

• The Oceanic Tides . The educational software program with a detailed User’s Manual for university-level students. It includes simulations that aid understanding various aspects of a difficult but interesting and important subject concerning the origin and properties of the gravitational tide-generating forces. The program illustrates also the properties of stationary tidal waves in the open ocean generated by the sun-induced or moon-induced tidal forces. A simplified model of the ocean (a water shell of equal depth wholly covering the globe) is adopted for the simulation.

  A simplified English version of the Oceanic Tides program (with Java applets representing some of the simulations), and also its Russian version are available directly in the Web. The stand-alone version of the program requires a PC (min 133 MHz CPU, 64 Mb RAM) running under MS Windows 98 or higher. To install the program, download the file Tides.zip, unzip it and run the standard setup procedure. To launch the program, double-click the icon “Oceanic Tides” created by the setup procedure on the desktop of your computer. A theoretical background with relevant mathematics for an in-depth study of the subject is included in the detailed User's Manual attached to the simulation program (also available as a PDF file, 15 pages). The Oceanic Tides program is the winner of 11th Annual Educational Software Contest (2000, IEEE Computer Society, Computing in Science & Engineering magazine).

• Computer Simulations in Classical Dynamics.
  • Collection of Remarkable Three-Body Motions (and also its Russian version). A set of Java applets intended to help students learn and understand the fundamental laws of physics as they apply to the fascinating world of motions of natural and artificial celestial bodies governed by the gravitational forces.
  • Computer illustrations to the laws of motion (and also its Russian version). A set of Java applets which can be useful for college and university students.
  • Inertial rotation of a rigid body (and also its Russian version). The program facilitates understanding of concepts behind rigid body dynamics. Simultaneously with simulating the rigid body motion, the program presents a clear geometrical interpretation of the inertial rotation.
  • Precession and nutation of a gyroscope (and also its Russian version). A small simulation program visualizes the torque-induced motion of a gyroscope and illustrates its principal features to aid understanding about the counterintuitive behaviour of a gyroscope on a qualitative level.

• Physics of Oscillations (and also its Russian version). Lecture demonstrations and a virtual lab for undergraduate students. The simulation programs (Java applets) are executed directly in the browser and allow the user to study natural oscillations, forced oscillations, and parametric oscillations in simple linear and nonlinear mechanical systems. The simulations are based on adequate mathematical models of the investigated physical systems. Each lab work and demonstration includes a User's Manual that gives reference on the theory of the simulated phenomena and suggests activities.

• Nonlinear Oscillations (the project is under construction). A preliminary version of the simulation software package Nonlinear Oscillations includes a set of highly interactive programs that visualize the motion of simple nonlinear mechanical oscillatory systems. The project NONLINEAR OSCILLATIONS is not yet finalized: simulations of some other nonlinear systems will be added in the future versions, as well as some new or improved papers with theoretical investigations of the simulated systems. In the package Nonlinear Oscillations the following mechanical systems are simulated:
  • Oscillations and Rotations of a Rigid Pendulum
  • Rigid Pendulum Driven by a Sinusoidal Force
  • Pendulum Driven by a Square-wave Force
  • Pendulum with the Horizontally Driven Pivot
  • Pendulum with the Vertically Driven Pivot
  • Rigid Pendulum with Modulated Length
  • Combined Pendulum with Spring and Gravity
  To install the package on your machine, download the file Nonlinear.zip (7 MB), unzip it and run the standard setup procedure.

  Also a set of Java applets is under development which can be used as undergraduate students virtual on-line lab on nonlinear oscillations. An example of this set is given by the simulation of a simple but important nonlinear system in the lab Free Oscillations and Rotations of a Rigid Pendulum.

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Contact Information

• E-mail:
• Address: Department of Physics, St. Petersburg State University
  Uljanovskaya st. 1, Petershoff
  198504 St. Petersburg, Russia
• Web address: http://www.ifmo.ru/butikov
• Phone: (812) 542 37 63, Fax: (812) 232 43 18

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Curriculum Vitae

• Graduated from St. Petersburg (former Leningrad) State University in 1962 (Department of Physics). Presently I am full professor of general physics at St. Petersburg State University and St. Petersburg Institute of Fine Mechanics and Optics. I give lecture courses on general physics, optics, quantum theory of solids, theory of oscillations. I have written several textbooks on physics used widely in Russia.
• My research work is associated with solid state physics (quantum theory of electronic paramagnetic resonance, theory of Josephson effects in weak superconductivity), theory of nonlinear oscillations. Several new complicated and even counterintuitive modes of regular and chaotic behavior have been discovered recently in parametrically excited simple nonlinear systems with the help of computer simulations. I have succeeded in finding clear physical explanations for some of these modes, and in a theoretical determination of their boundaries in the parameter space.

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Personal Interests

• During the last years I devote much time and effort to developing (and using in practice) interactive educational software for university-level physics students. My software is a kind of desk-top laboratory in which computer is used as a universal research instrument for investigating models of physical systems rather than simply as a convenient means to search and display information.
• Presently two my packages of simulation programs ("Physics of Oscillations" and  "Planets and Satellites") with tutorials are published and distributed by American Institute of Physics (Physics Academic Software Publishers). With these packages, I try to change a bit the traditional paradigm of teaching physics at Universities. My students do most part of the work on their own, using detailed manuals with assignments, which suggest them certain activity for exploratory usage of the simulation programs. Their work on the assigned projects is a model of a real scientific research.