Results are given of theoretical and experimental investigations of schemes of matching of magnetocumulative generator (MCG)div class=”Abstract”. : Magnetocumulative Generators (Shock Wave and High Pressure Phenomena): Larry L. Altgilbers, Mark D.J. Brown, Igor Grishnaev, Bucur M. This paper presents the results of a computer simulation of coaxial magnetocumulative current generators (MCGs). The simulation tests were carried out for.

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The prohibitive cost of the capacitors required to obtain the desired power motivated the search for a more economical device.

At the start of the s, the need for very short and powerful electrical pulses became evident to Soviet scientists conducting nuclear fusion research.

This page was last edited on 28 Novemberat The most intuitive explanation of this conservation of enclosed flux follows from Lenz’s lawwhich says that any change in the flux through an electric circuit will cause a current in the circuit which will oppose the change.

The first magneto-explosive generators, magnetocumulativf followed from the ideas of Andrei Sakharovwere designed to fill this role. By using this site, you agree to the Terms of Use and Privacy Policy.

Retrieved from ” https: Uspekhi Fizicheskikh Nauk in Russian. They are being investigated as power sources for electronic warfare devices known as transient electromagnetic devices that generate an electromagnetic pulse without the costs, side effects, or enormous range of a nuclear electromagnetic pulse device. The practical realization of high performance MK-2 systems required the pursuit of fundamental studies by a magnetocumukative team of researchers; this was effectively achieved byfollowing the production of the first MK-2 generator inand the achievement of currents over megaamperes from Maxwell; Goforth, James; Ekdahl, Carl From Wikipedia, the free encyclopedia.

Views Read Edit View history. Such generators can, if necessary, be utilised independently, or even assembled in a chain of successive stages: The variation of the magnetic flux induces a current red arrows in the ring by Faraday’s law of inductionwhich in turn creates a new magnetic field circling the wire green nagnetocumulative by Ampere’s circuital law.


The nine field lines represent the magnetic flux threading the ring. The technique is made possible when the time scales over which the device operates are sufficiently brief that resistive current loss is negligible, and the magnetic flux through any surface surrounded by a conductor copper wire, for example remains constant, even though the size and shape of the surface may change.

Explosively pumped flux compression generator

International Journal of Quantum Chemistry. The Marx generatorwhich stores energy in capacitors, was the only device capable generaors the time of producing such high power pulses.

Explosively pumped flux compression generators are used to create ultrahigh magnetic fields in physics and materials science research [1] and extremely intense pulses of electric current for pulsed power applications.

Los Alamos Science Helical generators were principally conceived to deliver an intense current to a magnetocumulatvie situated at a safe distance. For this reason, reducing the area of the surface enclosed by a closed loop conductor with a magnetic field passing through it, which would reduce the magnetic flux, results in the induction of current in the electrical conductor, which tends to keep mganetocumulative enclosed flux at its original value.

The new magnetic field opposes the field outside the ring but adds to the field inside, so that the total flux in the interior of the ring is maintained: The magnetic flux threading the ring, represented by five field lines, is reduced by the same ratio as the area of the ring.

The magnetic field lines are “pinched” closer together, so the average magnetic field intensity inside the ring increases by the ratio of the original area to the final area.

Suppose the ring is deformed, reducing its cross-sectional area. Magneto-explosive generators use a technique called “magnetic flux compression”, described in detail below. An EPFCG package that could be easily carried by a person can produce pulses in the millions of amperes and tens of terawatts.


Explosively-driven helical magneto-cumulative generators

In magnetocuumlative spring ofR. They are frequently used as the first stage of a multi-stage generator, with the exit current used to generate a very intense magnetic field in a second generator.

An explosively pumped flux compression generator EPFCG is a device used to generate a high-power electromagnetic pulse by compressing magnetic flux using high explosive.

By adding together the external magnetic field and the induced field, it can be shown that the net result is that the magnetic field lines originally threading the hole stay inside the hole, thus flux is conserved, and a current has been created in the conductive ring.

Chvileva undertook the first experiment with this type of generator, with the goal of obtaining a very high magnetic field.

The simple basic principle of flux compression can be applied in a variety of different ways. In magneto-explosive generators, the reduction in area is accomplished by detonating explosives packed around a conductive tube or disk, so the resulting implosion compresses the tube or disk.

An external magnetic generatkrs blue lines threads a closed ring made of a gejerators conductor with zero resistance. The compression process partially transforms the chemical energy of the explosives into the energy of an intense magnetic field surrounded by a correspondingly large electric current. Energy weapons Microwave technology Pulsed power Soviet inventions Russian inventions.

The purpose of the flux generator can be either the generation of an extremely strong magnetic field pulse, or an extremely strong electric current pulse; in the latter case the closed conductor is attached to an external electric circuit.

This flux conservation can be demonstrated from Maxwell’s equations.