B. Ninemire scite author profile

B. Ninemire

5Publications

85Citation Statements Received

88Citation Statements Given

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110

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Lawrence Berkeley National Laboratory

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Thermoacoustic range verification using a clinical ultrasound array provides perfectly co-registered overlay of the Bragg peak onto an ultrasound image

et al. 2016

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The potential of particle therapy due to focused dose deposition in the Bragg peak has not yet been fully realized due to inaccuracies in range verification. The purpose of this work was to correlate the Bragg peak location with target structure, by overlaying the location of the Bragg peak onto a standard ultrasound image. Pulsed delivery of 50 MeV protons was accomplished by a fast chopper installed between the ion source and the cyclotron inflector. The chopper limited the train of bunches so that 2 Gy were delivered in [Formula: see text]. The ion pulse generated thermoacoustic pulses that were detected by a cardiac ultrasound array, which also produced a grayscale ultrasound image. A filtered backprojection algorithm focused the received signal to the Bragg peak location with perfect co-registration to the ultrasound images. Data was collected in a room temperature water bath and gelatin phantom with a cavity designed to mimic the intestine, in which gas pockets can displace the Bragg peak. Phantom experiments performed with the cavity both empty and filled with olive oil confirmed that displacement of the Bragg peak due to anatomical change could be detected. Thermoacoustic range measurements in the waterbath agreed with Monte Carlo simulation within 1.2 mm. In the phantom, thermoacoustic range estimates and first-order range estimates from CT images agreed to within 1.5 mm.

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"Super" cocktails for heavy ion testing

Johnson

McMahan

Galloway

et al. 2007

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The 88-Inch Cyclotron: A one-stop facility for electronics radiation and detector testing

et al. 2018

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In outer space down to the altitudes routinely flown by larger aircrafts, radiation can pose serious issues for microelectronics circuits. The 88-Inch Cyclotron at Lawrence Berkeley National Laboratory is a sector-focused cyclotron and home of the Berkeley Accelerator Space Effects Facility, where the effects of energetic particles on sensitive microelectronics are studied with the goal of designing electronic systems for the space community. This paper describes the flexibility of the facility and its capabilities for testing the bombardment of electronics by heavy ions, light ions, and neutrons. Experimental capabilities for the generation of neutron beams from deuteron breakups and radiation testing of carbon nanotube field effect transistor will be discussed.

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88-Inch Cyclotron: The one-stop facility for electronics radiation testing

Covo

Albright

Ninemire

et al. 2017

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Recent Cocktail Beam Developments at the 88-Inch Cyclotron for SEE Testing

Benitez

Donoghue

Johnson

et al. 2017

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B. Ninemire

Thermoacoustic range verification using a clinical ultrasound array provides perfectly co-registered overlay of the Bragg peak onto an ultrasound image

"Super" cocktails for heavy ion testing

The 88-Inch Cyclotron: A one-stop facility for electronics radiation and detector testing

88-Inch Cyclotron: The one-stop facility for electronics radiation testing

Recent Cocktail Beam Developments at the 88-Inch Cyclotron for SEE Testing

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