DE2515149A1 - Controlled nuclear fusion by contained plasma beam - using sudden increase of contg. field as plasma beams enter - Google Patents

Abstract

Energy is obtd. by controlled atomic fusion using two opposed plasma beams (ionised atoms and electrons) which interpenetrate and mix inside a reaction chamber surrounded by a contraction coil; the intensity of the magnetic contraction field is suddenly intensely increased during or just befor the inter penetration of the two beams. The difficulties arising from the obstruction to the beams caused by oblique lines of magnetic force around each opening of the coil are reduced, since the field does not reach fall intensity until the beams have entered the coil.

Description

Process and device for energy generation through controlled Atomic nucleus fusion using artificial plasma jets against each other.

The invention relates to a method for generating energy by controlled Atomic nucleus fusion by converging artificial plasma jets, which through Mixing previously separated accelerated atom ions and electrons are formed and moved towards one another within a reaction space surrounded by a contraction coil and slide into one another to form a fusion plasma and exist in that the magnetic field strength of the contraction field before or during the mutual displacement the plasma jets directed against one another experiences a substantial increase. Further The invention relates to a device for performing this method, below Use of a pulse generator which sends out plasma packets for a short time Application of voltage to accelerators or other release of particle emission - expediently at periodic intervals - arranged. According to the invention, by this impulse generator itself or a device coupled to it or others, synchronously acting system also a periodic or in the pulse course coordinated Feeding of a contraction column is carried out in such a way that the magnetic contraction effect shortly before the plasma jets are pushed into one another or during this process significantly reinforced.

By directing artificial plasma jets against each other, which by mixing previously separately accelerated atom ions and electrons in one Vacuum space are formed, it is possible to use particularly favorable fusion conditions to create by themselves these plasma jets in which the atomic ions are all one of the same size, suitable for fusion Own speed in one reaction chamber after the meeting, since the small thermal component of the partial axis movement to be held by a longitudinal Magnetic field is converted into a spiral movement, it is a "cold" Plasma with little or no thermal expansion pressure, so that relatively low Magnetic field strengths are sufficient to achieve particularly high plasma densities. Appropriate plasma densities of the order of magnitude 1022 - lo24 ions / cm3 are to be used and the corresponding necessary magnetic field strengths are in the order of a few thousand Gauss or at least in the range of achievable values, i.e. up to 100,000 Gauss or possibly also about it.

The function of the arrangement can, however, be determined by the course of field lines be difficult or impaired at the entrance of a contraction coil on both sides. The plasma jets should only be strongly influenced by a longitudinal magnetic field , i.e. by a magnetic field with field lines running in the axial direction, that arises inside a contraction coil, but not through an inclined field lines that can appear at the spool openings, especially if their inner ones Diameter (clear width) is kept small. This is now made possible by the invention especially, according to which adverse effects are avoidable by the full Field effect is only generated when the plasma jets are already within the Contraction coil are located, namely before they meet or at the beginning the nesting.

The invention is shown in the drawing with reference to exemplary embodiments Explained in more detail0 Figure 1 shows the basic arrangement, Figures 2 and 3 their Effect according to the invention. In FIGS. 4 and 5, alternatively applicable possibilities are available the pulse generation according to the invention explained FIG. 6 shows the possible embodiment the contraction coil with two separate magnet windings.

In Figo1, 1 and 7a designate two built-in ion accelerators Ion sources, preferably for deuterium ions (deuterons). These atom ions, which are intended for fusion, are expediently via deflection magnets 2, 2a in the of a contraction coil 3 surrounded reaction space led against each other, after they accelerate previously from electrons 4, 4a coming electron beams be added for plasma formation by means of weaker deflecting magnets 5, 5a. the Electrons are expediently somewhat faster than atomic ions, in order to prevent To prevent atomic bonds (recombination). The emission of atomic ions and electrons takes place in pulses, ozu a pulse generator 6 is provided, which the accelerator 1, 7a and 4, 4a controls. The artificial plasma jets formed in this way in a vacuum of limited length (plasma packets) slide into each other after they meet and thus form an elongated fusion plasma. The high vacuum apparatus and the Energy take-off devices are not shown for the sake of simplicity.

Please refer to existing publications for details (Journal BULLETIN SEV, issue 7-1972; English patent specification NoO1 311 591, German Offenlegungsschriften Nur. 2 124 442, 2 252 602, 2 314 o93, etzO) O Die for the manufacture The atom ions and electrons serving artificial plasma jets have their own Originated after expediently only a slight temperature movement, they can optionally can be generated by ionizing a deep-frozen gas. The speed component the temperature movement is what is affected by the longitudinal magnetic field of the coil 3 is influenced, this speed component determines the radius of gyration of the Helical movement and thus the resulting beam diameter.

According to the invention, however, not only the ion beams and expediently also the electron beams directed into this by means of the pulse generator 6 pulsed, but this also gives corresponding impulses to the contraction coil 3. The coil 3 expediently has a permanent, limited contraction effect is then for a short time greatly increased in its effect in the context of the invention. So can E.g. a field strength of the order of magnitude that is constantly present during operation 102 - lo3 Gauss are pulsed briefly to be brought to lo3 -5 Gauss. This is in on is possible in a known manner, e.g. by briefly applying the voltage to coil 3 is increased. This can also be done by means of an energy store, for example by connecting a capacitor or the like.

According to FIG. 2, plasma packets P, P1 arrive from both sides in the Reakttonsraum surrounded by the pipe wall 7 in the inner area of the coil 3 and are contracted by this. They form in the longitudinal field inside the coil then spiral motions of the plasma particles and the plasma jets get a tubular configuration. The dimension of the plasma jet is determined by the Velocity component perpendicular to the axial direction of movement of the beam determined as only this intersects magnetic lines of force. This speed component depends on the originally existing temperature movement, the required The lower this speed component, the smaller the coil field strength is. The main axial velocity component is the longitudinal magnetic field unaffected.

If the plasma jets are already very close to each other or have already pushed something into each other, according to the invention, the full or increased contraction effect of the coil 3 triggered. Only now does it occur full beam narrowing and density increase.

This state is shown in Figo3. The plasma jets P P1 have already pushed themselves together a bit and are now increased by the The field effect is contracting more strongly, which enables greatly improved fusion conditions, by now using the full density of the fusion plasma that is appropriate for the fusion is achieved. The two plasma jets have the same in the field of the coil 3 Helical sense and thus also screw together magnetically.

The coil 3 is expediently designed about so long that when the field strength increase, both Plasmapakt * 8 are already in their area, so as long as both plasma packages together, or in other words twice as long like either of the two limited plasma jets. This can also be seen in Fig. 3, in which the coil 3 is a little shorter than it is advantageously carried out.

In FIGS. 4 and 5, alternatives for influencing the pulse are shown. Figo4 shows in picture a) a loading of the accelerator by means of direct current pulses, as it is possible by means of rotating contacts or similar. In picture b) is the analog pulsing of the solenoid recognizable. The increased field effect should only start when the plasma packets are already in the reaction chamber, thus delayed compared to the accelerator pulsing. Conversely, however, the time for the build-up of the magnetic field must be taken into account and it will be small to this to keep the coil 3 expediently carried out iron-free. The duration of the magnetic field pulsing can expediently be longer than the duration of the accelerator pulsing, all pulsing can be repeated periodically.

FIG. 5 shows the generation of analog pulses in images a) and b) by influencing alternating voltages by means of controlled valves (thyratrons, Thyristors, etc.). According to Figure a), about a high frequency voltage supplies the pulses for the emission of the plasma packets whose duration t is, for example, of the order of magnitude 10-6 seconds, while the interval between the pulses is substantial is bigger. According to Figure b), an alternating voltage is then used to pulsate the magnetic field lower frequency used, about exactly half the frequency. The frequency of the voltage for the plasma pulse (Fig. a)) oll expediently a whole multiple of the frequency for magnetic pulsing (Fig. b)), but the sequence of rabbits can also be shifted or be displaceable. FIG. 6 shows another field coil with two windings 3a and 3b, of which winding 3a is continuously excited and winding 3b is pulsed can be.

Finally, a few notes on possible data for one according to the invention Fusion reactor: the ion accelerators can each be charged with 50 kV, the electron accelerator with a maximum of 1 kV. The plasma jets can with a beam diameter of e.g. 1 cm already with an ion density of the order of magnitude Lo14 ions / cm3 or even more enter the coil 3, their clear width, for example lo - 20 cm or more. Due to the full contraction effect, the beam diameter then approximately to a value of the order of magnitude lo 2 10-3 3 cm cm constricted, e.g. to 0.1 mm, whereby in the lateral surface of the Plasma hose the desired high ion density, approximately of the order of 1023 ions / c³, is educated. The plasma packages expediently had a beam length of a few meters, e.g.

3 - 4 m. The contraction coil and possibly not that either shown The cooling jacket to the energy line then expediently have a total length of less than 10 m, e.g. from 6 - 8 meters. However, there are smaller or larger arrangements as well other dimensions possible. Before magnetic compression or before artificial Plasma formation may also be an additional electrostatic or ion-optical one Compression of the ion stream possible, but also the electron stream analogously.

Patent claims: 1. Process for generating energy through controlled Atomic nucleus fusion by converging artificial plasma jets, which through Mixing of previously separately accelerated atom ions and electrons formed and within a reaction space surrounded by a contraction coil are brought against each other and slide into each other to form a pusion plasma, characterized in that the magnetic field strength of the contraction field (coil 3) before or during the mutual displacement of the plasma jets directed against one another experiences a substantial increase.

2.: device for carrying out the method according to claim 1, using a pulse generator, softer for sending out plasma packets a short-term application of voltage by acceleration or other release the emission of particles - expediently at periodic intervals - caused thereby characterized in that this pulse generator (6) itself or one coupled to it Sinrichtung or other, synchronously acting system, also a periodic or im Pulse flow coordinated feeding of a contraction coil (3) carried out in this way that the magnetic contraction effect is just before telescoping of the plasma jets (P, P1) or significantly increased during this process.

3. Device according to claim 2, characterized in that the contraction coil (3) approximately the length of both plasma packets (P, P), i.e. approximately twice the length one of the same, has (Fig03).

Claims (1)

4. Device according to claim 2, characterized in that Particle beams with low temperature movement, preferably by ionization a non-hot or frozen gas produced. 5. Device according to claim 2, characterized in that that the pulse control of the contraction coil by valve control an alternating voltage takes place, aeren frequency is many times lower or at least is only half as large as an alternating voltage, which is the impulse for transmission of plasma packets (Fig.5). 6. Device according to installment claim a, characterized in that the contraction coil has two separate windings (3a and 3b) for one hand weaker permanent field and on the other hand a multiple stronger pulsed additional field possesses (Fig. 6). 7. Procedure and equipment as described and drawn (further detailed claims reserved).