J. Alessi scite author profile

J. Alessi

5Publications

108Citation Statements Received

13Citation Statements Given

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121

105

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Brookhaven National Laboratory, Brookhaven College, University of Pittsburgh

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Linac4 H− ion sources

Lettry

Aguglia

Alessi

et al. 2015

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CERN's 160 MeV H(-) linear accelerator (Linac4) is a key constituent of the injector chain upgrade of the Large Hadron Collider that is being installed and commissioned. A cesiated surface ion source prototype is being tested and has delivered a beam intensity of 45 mA within an emittance of 0.3 π ⋅ mm ⋅ mrad. The optimum ratio of the co-extracted electron- to ion-current is below 1 and the best production efficiency, defined as the ratio of the beam current to the 2 MHz RF-power transmitted to the plasma, reached 1.1 mA/kW. The H(-) source prototype and the first tests of the new ion source optics, electron-dump, and front end developed to minimize the beam emittance are presented. A temperature regulated magnetron H(-) source developed by the Brookhaven National Laboratory was built at CERN. The first tests of the magnetron operated at 0.8 Hz repetition rate are described.

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RHIC EBIS: basics of design and status of commissioning

Pikin¹,

Alessi²,

Beebe³

et al. 2010

J. Inst.

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RHIC EBIS will be used for producing multicharged ions from helium to uranium using primary ions from various external ion sources. The EBIS is followed by an RFQ and short linac, forming the new preinjector which will produce beams used for physics at RHIC and the NASA Space Radiation Laboratory, The design of RHIC EBIS is based on the BNL Test EBIS, which was a successful 10A electron current prototype. Improvements have been made in the RHIC EBIS design to increase the capacity of the ion trap, repetition frequency of operation, electron current, acceptance for injected ions, and improve vacuum conditions in the ionization region. RHIC EBIS has been assembled and installed in its final position. Commissioning is now underway to reach its project parameters. The results of this commissioning stage are presented.

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The Brookhaven National Laboratory electron beam ion source for RHIC

Alessi

Barton

Beebe

et al. 2010

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As part of a new heavy ion preinjector that will supply beams for the Relativistic Heavy Ion Collider and the National Aeronautics and Space Administration Space Radiation Laboratory, construction of a new electron beam ion source (EBIS) is now being completed. This source, based on the successful prototype Brookhaven National Laboratory Test EBIS, is designed to produce milliampere level currents of all ion species, with q/m=(1/6)-(1/2). Among the major components of this source are a 5 T, 2-m-long, 204 mm diameter warm bore superconducting solenoid, an electron gun designed to operate at a nominal current of 10 A, and an electron collector designed to dissipate approximately 300 kW of peak power. Careful attention has been paid to the design of the vacuum system, since a pressure of 10(-10) Torr is required in the trap region. The source includes several differential pumping stages, the trap can be baked to 400 C, and there are non-evaporable getter strips in the trap region. Power supplies include a 15 A, 15 kV electron collector power supply, and fast switchable power supplies for most of the 16 electrodes used for varying the trap potential distribution for ion injection, confinement, and extraction. The EBIS source and all EBIS power supplies sit on an isolated platform, which is pulsed up to a maximum of 100 kV during ion extraction. The EBIS is now fully assembled, and operation will be beginning following final vacuum and power supply tests. Details of the EBIS components are presented.

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Performance of the Magnetron H− Source on the BNL 200 MeV Linac

Alessi

2002

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Ionization of polarized [sup 3]He[sup +] ions in EBIS trap with slanted electrostatic mirror

Pikin¹,

Zelenski²,

Kponou³

et al. 2008

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J. Alessi

Linac4 H− ion sources

RHIC EBIS: basics of design and status of commissioning

The Brookhaven National Laboratory electron beam ion source for RHIC

Performance of the Magnetron H− Source on the BNL 200 MeV Linac

Ionization of polarized [sup 3]He[sup +] ions in EBIS trap with slanted electrostatic mirror

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