T. Hardek scite author profile

Since 2009, the Spallation Neutron Source (SNS) has been producing neutrons with ion beam powers near 1 MW, which requires the extraction of ∼50 mA H(-) ions from the ion source with a ∼5% duty factor. The 50 mA are achieved after an initial dose of ∼3 mg of Cs and heating the Cs collar to ∼170 °C. The 50 mA normally persist for the entire 4-week source service cycles. Fundamental processes are reviewed to elucidate the persistence of the SNS H(-) beams without a steady feed of Cs and why the Cs collar temperature may have to be kept near 170 °C.

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Observations of a fast transverse instability in the PSR

Neuffer

Colton

Fitzgerald

et al. 1992

Nuclear Instruments and Methods in Physics Research Section A:

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Performance of the H[sup −] Ion Source Supporting 1-MW Beam Operations at SNS

Han¹,

Hardek²,

Kang³

et al. 2011

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Sealed operation of a rf driven ion source for a compact neutron generator to be used for associated particle imaginga) Rev. Sci. Instrum. 81, 02B908 (2010); 10.1063/1.3266114 Development of a 27.12 MHz radio frequency driven ion source with 3 mTorr operation pressure for neutron generators Rev. Sci. Instrum. 76, 103302 (2005); Abstract. The Spallation Neutron Source (SNS) at Oak Ridge National Laboratory reached 1-MW of beam power in September 2009, and now routinely operates near 1-MW for the production of neutrons. This paper reviews the performance, operational issues, implemented and planned mitigations of the SNS Hion source to support such high power-level beams with high availability. Some results from R&D activities are also briefly described.

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Testing procedures and results of the prototype fundamental power coupler for the Spallation Neutron Source

Stirbet

Campisi²,

Daly³

et al.

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High-power RF testing with peak power in excess of 500 kW has been performed on prototype Fundamental Power Couplers (FPC) for the Spallation Neutron Source superconducting (SNS) cavities. The testing followed the development of procedures for cleaning, assembling and preparing the FPC for installation in the test stand. The qualification of the couplers has occurred for the time being only in a limited set of conditions (travelling wave, 20 pps) as the available RF system and control instrumentation are under improvement.

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T. Hardek

The Spallation Neutron Source accelerator system design

Producing persistent, high-current, high-duty-factor H− beams for routine 1 MW operation of Spallation Neutron Source (invited)

Observations of a fast transverse instability in the PSR

Performance of the H[sup −] Ion Source Supporting 1-MW Beam Operations at SNS

Testing procedures and results of the prototype fundamental power coupler for the Spallation Neutron Source

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