Cusped-field thruster

The invention claimed is: 1. A cusped-field thruster for a space system, wherein the cusped-field thruster comprises: at least two substantially annular permanent magnets arranged in an antipolar manner, wherein a magnetic pole piece is formed between the at least two substantially annular permanent magnets; and an anode, which comprises another permanent magnet, wherein the anode has a continuously tapering profile; wherein the cusped-field thruster is configured in such a way that a cusp of a magnetic field is formed in a region adjacent to the anode of the cusped-field thruster. 2. The cusped-field thruster according to claim 1 , wherein the anode has a first end farthest from the cusp and a second end nearest the cusp, and wherein a diameter of the anode decreases in a direction from the first end to the second end. 3. The cusped-field thruster according to claim 1 , wherein the anode is formed as a fuel inlet of the cusped-field thruster. 4. The cusped-field thruster according to claim 1 , further comprising a discharge chamber wall, arranged on a surface of the at least two substantially annular permanent magnets arranged in the antipolar manner, wherein the surface faces a discharge chamber of the cusped-field thruster. 5. A method for generating a thrust on a space system, wherein the method comprises: providing a cusped-field thruster according to claim 1 ; admitting a fuel into a discharge chamber of the cusped-field thruster; and applying an electric voltage between the anode and an electron source to accelerate electrons into the discharge chamber, wherein the electrons are confined in the discharge chamber by the magnetic field, which is generated by the at least two substantially annular permanent magnets arranged in the antipolar manner and the anode, and wherein electrons in the discharge chamber ionize the fuel thereby generating ionized fuel; wherein the ionized fuel is accelerated through an electric field, so that the thrust is generated on the space system. 6. The method according to claim 5 , wherein the a magnetic field strength is focused at the anode.