NSF-MRI 2013

Purpose

In June of 2012, the Idaho Accelerator Center received a grant from the state of Idaho as part of the Idaho Global Entrepreneurial Mission (IGEM) program. One of the proposed objectives was to research the use of an electron accelerator to the produce Copper isotopes to be used in medical diagnostic procedures. Preliminary results of the work sponsored by this research have indicated that the production of Copper isotopes strongly depends on the alignment of incident radiation to the sample. While a sample size of 2 cm may produce the highest number of isotopes per volume, a missalignment of more than a centimeter may reduce the amount of isotopes produced by a factor of at least two. A strong need now exists for a system to monitor the spatial distribution of the photons used to irradiate the samples. Based on these results, we propose the development of an irradiation instrument, that qualifies for the MRI category "Track 2", to be used for isotope production and PAA analysis.

The proposed instrument will be composed of a photon beam monitoring system and a sample conveyor. Support from this MRI will be used to construct the photon monitoring system. Matching support from the IGEM project will be used for the sample conveyor system. The conveyor, commonly referred to as a rabbit, will transport samples into the irradiation region and then to a shielded container (lead pig) after irradiation. The transportation system is a necessity due to the high activity isotopes that may be produced. When used as an instrument for PAA, the transportation system will eliminate the step of shutting the accelerator off in order to change to the control sample thereby risking a change in the experimental conditions whose uniformity is essential for meaningful measurements. Once calibrated, the photon monitoring system would allow users to irradiate sample with a known amount of radiation.

The proposed instruments ability to enhance the production of copper isotopes for medical diagnostic tests is only one potential use. Isotope production in the US is a $$$ busines..

Paragraph of the instruments impact on the production of isotopes.

Using the instrument for PAA and the large potential user base.

The University of Missouri's Research Reactor is a current producer of medical isotopes with a total operating budget o

Talking points

1.) The accelerator "Jack" is an instrument for PAA and isotope production

2.) Isotope production impact on other areas of research (medical, fracking, underground pipelines, spikants for homeland security)

3.) Inter organizational use of PAA ( Geology, Archeology, certification for coffee origins....)

4.) Impact of Photon Flux monitoring for PAA analysis

5.) Device will train accelerator physicists, nuclear chemists, ...

Budget

Equipment list

two steps

1.) purchase 16, single crystal detectors from http://www.npl.co.uk/upload/pdf/091104_nuc_galbiati.pdf. These will serve as monitors distributed symmetrically around the beam line and used to steer the electron beam until equal photon rates are observed => centered photon beam.

2.) A wire tungsten wire coated with diamond will sweep through the photon beam in the location of the target to measure the photon flux.

get http://www.npl.co.uk/upload/pdf/091104_nuc_galbiati.pdf to build a pixelated 3 x 3 cm detector with .5 x .5 cm size pixels (36 pixels)

OR if the photon flux is too high construct a wire array.

Proposed Budget

$148k + $160k (Cost share) = $308k