SRF2009 - List of Authors (Mustapha, B.)

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Mustapha, B.

Paper	Title	Page
TUPPO016	A New ATLAS Efficiency and Intensity Upgrade Project	218
	P.N. Ostroumov, J.D. Fuerst, M.P. Kelly, B. Mustapha, K.W. Shepard, J. Xu ANL, Argonne
	The ATLAS facility provides beams of essentially all stable isotopes at energies above the Coulomb barrier for nuclear physics research. We have developed a two-stage ATLAS upgrade plan which includes the replacement of aging split-ring cavities by high-performance quarter-wave resonators (QWR) capable of accelerating ~100 pμA ion beams. The first stage of the upgrade project funded through the American Recovery and Reinvestment Act includes accelerator efficiency increase by adding a new RFQ injector, development and construction of a new cryomodule containing up to 3 SC solenoids and 8 QWRs. A new 72.75 MHz resonator is designed for an optimum ion velocity β=0.075. To achieve record high accelerating voltage ~2.5 MV at this very low velocity range, EM properties of the resonator are highly optimized to reduce peak surface fields. The resonator will be equipped with a piezoelectric fast tuner and capacitive coupler to transmit several kilowatts of RF power. The vast experience gained during the development, commissioning and operation of the ATLAS energy upgrade cryomodule [1] will be applied for the design of the new cryomodule. [1] J. Fuerst. ATLAS Energy Upgrade Cryomodule, these Proceedings.

Paper

Title

Page

TUPPO016

A New ATLAS Efficiency and Intensity Upgrade Project

218

P.N. Ostroumov, J.D. Fuerst, M.P. Kelly, B. Mustapha, K.W. Shepard, J. Xu
ANL, Argonne

The ATLAS facility provides beams of essentially all stable isotopes at energies above the Coulomb barrier for nuclear physics research. We have developed a two-stage ATLAS upgrade plan which includes the replacement of aging split-ring cavities by high-performance quarter-wave resonators (QWR) capable of accelerating ~100 pμA ion beams. The first stage of the upgrade project funded through the American Recovery and Reinvestment Act includes accelerator efficiency increase by adding a new RFQ injector, development and construction of a new cryomodule containing up to 3 SC solenoids and 8 QWRs. A new 72.75 MHz resonator is designed for an optimum ion velocity β=0.075. To achieve record high accelerating voltage ~2.5 MV at this very low velocity range, EM properties of the resonator are highly optimized to reduce peak surface fields. The resonator will be equipped with a piezoelectric fast tuner and capacitive coupler to transmit several kilowatts of RF power. The vast experience gained during the development, commissioning and operation of the ATLAS energy upgrade cryomodule [1] will be applied for the design of the new cryomodule.

[1] J. Fuerst. ATLAS Energy Upgrade Cryomodule, these Proceedings.