H. Deitinghoff scite author profile

The CH-or Crossbar H-structure is a new H-mode drift-tube structure operating in the TE 210 mode. Due to its mechanical rigidity room temperature as well as superconducting cavities can be realized [1]. A superconducting version of the CH-structure has been development at the IAP in Frankfurt, Germany. To prove the promising results obtained by simulations a 19-cell, 352 MHz (β = 0.1) prototype cavity has been designed and built. This CH-prototype is the first superconducting low energy multi-cell cavity for the acceleration of protons and ions. The cavity has been tested at room temperature with an rf power of up to 300W cw and 2 kW pulsed. We present the first tests of the cavity as well as mechanical simulations. ) prototype cavity has been designed and built. This CHprototype is the first superconducting low energy multi-cell cavity for the acceleration of protons and ions. The cavity has been tested at room temperature with an rf power of up to 300 W cw and 2 kW pulsed. We present the first tests of the cavity as well as mechanical simulations.

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H. Deitinghoff

Four-rod-λ/2-RFQ for light ion acceleration

Investigation of high duty factor ISR RFQ-1000

Upgrading of the Heidelberg accelerator facility with a new high current injector

Commissioning of the new heavy ion injector at GSI

First Tests of the Superconducting CH-Structure

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