Patent Number: 
Section: claims

1. A nuclear fusion reactor, comprising:a fusion pulsed laser source, which is configured to emit fusion laser pulses having a pulse duration of less than 10 ps and power of more than 1 petawatt and to directly initiate a nuclear fusion reaction in a fusion fuel within a cylindrical reaction volume:a magnetic field pulsed laser source, which is configured to generate magnetic field laser pulses to generate a magnetic field in the cylindrical reaction volume to contain the nuclear fusion reaction, the magnetic field being generated at a field strength of greater than or equal to 1 kT;an energy conversion device operable to convert any energy released during the nuclear fusion reaction into electrical energy. 2. The nuclear fusion reactor according to claim 1, wherein a magnetic field device is exposed to magnetic field laser pulses to generate the magnetic field within the reaction volume which is surrounded by the energy conversion device and wherein the magnetic field device is connected to a voltage source for generating a negative high voltage relative to the energy conversion device. 3. The nuclear fusion reactor according to claim 2, wherein;the energy conversion device is at ground potential;the energy conversion device forms a spherical, electrically conductive enclosure for the magnetic field device;between the energy conversion device and the reaction volume, a Faraday cage is provided for shielding a static high current field from the nuclear fusion reaction; orthe voltage source is configured for generating the negative high voltage in an amount of at least 1 MV. 4. The nuclear fusion reactor according to claim 2, wherein the magnetic field device comprises:a pair of electrodes which are coupled to coils; andthe magnetic field pulsed laser source, which is positioned for irradiating the electrodes with the magnetic field laser pulses, wherein the magnetic field can be generated by a discharge current in the electrodes and coils by interaction with the magnetic field laser pulses. 5. The nuclear fusion reactor according to claim 4, wherein the magnetic field pulsed laser source is configured for generating the magnetic field laser pulses in the form of laser pulses having a pulse duration of less than 20 ns and energy of more than 100 J. 6. The nuclear fusion reactor according to claim 4, wherein the magnetic field pulsed laser source is positioned so the magnetic field laser pulses have a direction of incidence with respect to the magnetic field device, wherein the direction of incidence deviates up to 80° from vertical within a plane oriented parallel to the coils. 7. The nuclear fusion reactor according to claim 4, wherein the electrodes of the magnetic field device comprise two plates spaced from one another, between which a field intensifying material is arranged in a shape which is adapted to a Rayleigh profile of the generated plasma. 8. The nuclear fusion reactor according to claim 1, wherein the fusion pulsed laser source is configured for generating the fusion laser pulses, the duration of which is less than 5 ps. 9. The nuclear fusion reactor according to claim 4, wherein the fusion pulsed laser source is positioned so the fusion laser pulses have a contrast ratio of at least 106 or the fusion laser pulses have an intensity of at least 1017 watts per square centimeter.