DD259076A1 - ION SOURCE FOR A ACCELERATOR - Google Patents

Abstract

The invention relates to an ion source for an accelerator, in particular for a cyclotron. The invention includes that the cathode system of a directly heated cathode with two Kuehlkreislaeufen is interchangeable with the cathode system with indirectly heated cathode, a Kuehlreislauf by two Anschlußbloecke (9) of the heating coil (11) and the other Kuehlkreislauf by the cathode holder (10) of the indirect heated cathode, an insulation between the Anschlußbloecken (9) of the heating coil (11) and between the cathode holder (10) and the anode (1) in the tube (3) a rohrfoermiger insulator (14) is mounted on the inside a Ring (16) is provided.

Description

embodiment

The invention will be explained in more detail using an exemplary embodiment. In the accompanying drawing show

1: the ion source in section with the system of the indirectly heated cathode, FIG. 2: the system of the directly heated cathode in a perspective view, FIG. 3: the system of the indirectly heated cathode in perspective view.

The ion source according to FIG. 1 consists of the anode 1 with discharge chamber 2, of the cathode system with cathode 4 and heating coil 11 as well as of the Antikatode5.

In the discharge chamber 2, a recess 6 is mounted, can be extracted from the plasma by means of a pull-out optics, the ions. In the tube 3 are the system of the directly heated cathode of FIG. 2, consisting of the water-cooled terminal blocks 7 and the cathode 8, or the system of indirectly heated cathode of FIG. 3, consisting of the water-cooled terminal blocks 9 and the water-cooled cathode holder 10th , arranged longitudinally displaceable and can be brought to the place of work.

The inner diameter of the tube 3 only offers space for two cooling circuits. Therefore, the two cooling circuits of the system of the directly heated cathode 8 are used in operating the system of the indirectly heated cathode 4, by inventively between the terminal blocks 9 of the Heizwendeis 11 an electrically insulating water connection is provided. For sealing between the terminal blocks 9 of the Heizwendeis 11, a round rubber ring 17 is used. The required for sealing surface jerk between the terminal blocks 9 is achieved by an insulating guide piece 12 and an insulating screw 13. The tubular insulator 14 between the cathode holder 10 and the anode 1 is not sufficiently protected by the sleeve 15 from contamination by sputtered cathode material. According to the invention a cut-off is achieved by the ring 16 on the tubular insulator 14, which significantly increases the operating time of the tubular insulator 14 and improves the reliability of the ion source.

The Antikatode 5 is longitudinally displaceable with water-cooled Antikatodenhalter 18 in the tube 3a and can be brought to the place of work.

Claims (3)

An ion source for an accelerator consisting of an anode with a discharge chamber, a cathode, which is arranged opposite an anticode, and a tube for the cathode system and the Antikatode, characterized in that the cathode system of a directly heated cathode with two cooling circuits against the Katodensystem with indirectly heated cathode is interchangeable ,. wherein a cooling circuit is passed through two terminal blocks (9) of the Heizwendeis (11) and the other cooling circuit through the cathode holder (10) of the indirectly heated cathode, an insulation between the terminal blocks (9) of the Heizwendeis (11) and between the cathode holder ( 10) and the anode (1) in the tube (3) a tubular insulator (14) is mounted, on the inside of a ring (16) is provided. 2. ion source according to claim 1 with system of indirectly heated cathode, characterized in that between the terminal blocks (9) for the heating coil (11) is held in grooves held round ring made of rubber, Teflon or similar electrically insulating material as a seal, wherein for the required surface pressure of the seal an insulating screw (13) i and an insulating guide piece (12) are provided. 3. ion source according to claim 1 with system of indirectly heated cathode, characterized in that in the tubular insulator (14) mounted ring (16) made of ceramic, glass or metal with a round, oval or trapezoidal cross section. For this 2 pages drawings Field of application of the invention The invention relates to an ion source for an accelerator, in particular for a cyclotron. Characteristic of the known state of the art It is already known to use ion sources with directly heated cathode for light ions on accelerators (Rev. of Mod. Phys. 18 [1946] 293). For heavy ions, ion sources with indirectly heated cathodes are used (Atomn. Energ. 2 [1957] 272). These ion sources must be replaced when changing from light and heavy ions. The manufacturing complexity of the ion sources is considerable, the replacement of the ion sources in the accelerator requires a longer time. Object of the invention It is the object of the invention to reduce the expense of manufacturing and replacing the ion sources. Explanation of the essence of the invention The invention has for its object to make some components of the ion source suitable for both light and heavy ions. According to the invention the object is achieved in that the cathode system of a directly heated cathode with two cooling circuits is interchangeable with the cathode system with indirectly heated cathode, wherein a cooling circuit through two terminal blocks 9 of the Heizwendeis 11 and the other cooling circuit passed through the cathode holder 10 of the indirectly heated cathode is, an insulation between the terminal blocks 9 of the Heizwendeis 11 and arranged between the cathode holder 10 and the anode 1 in the tube 3, a tubular insulator 14 is mounted, on the inside of a ring 16 is provided. It is advantageous if between the terminal blocks 9 for the heating coil 11 a held in grooves round ring made of rubber, Teflon or similar electrically insulating material is arranged as a seal, wherein provided for the required surface pressure of the seal, an insulating screw 13 and an insulating guide piece 12 are. The attached in rohrförmiogen insulator ring may be made of ceramic, glass or metal with a round, oval or trapezoidal cross-section.