TF SBIR2012
1.) Scientific/Technical Approach
FRIB uses 0.5-2.5 Telsa strength magnetic dipoles to separate rare isotopes. Currently Hall probes are used to set B-field and then remove probe during operation to prevent damage. Gamma, neutron, and proton fluxes are about 2 E10 n/cm^2/s (mostly thermal neutrons).
If its mostly thermal neutrons then why not capture them with a liner?
Why do you need to monitor the B-field when beam is on?
Optical Frequency Domain Reflectometry will be used to measure B-field to an accuracy of 0.01%. Probes will be able to withstand fast neutron fluxes of 10^18n/cm^2 = 1 year in the FRIB.
a.) To what extent does the proposal build upon or extent current stat-of-the-art
b.) How new or unique is the idea
c.) Hos significant is the scientific or technical challenge
d.) Is a breakthrough possible
e.) does applicant have knowledge of the subject
f.) have concepts been presented thoroughly
2.) Ability to carry out the project in a cost effective manner
a.) Qualification of the PI ,staff, and facilities
b.) soundness of Phase I work
c.) does effort justify the cost.
3.) Impact
a.) benefits of proposed work to technology or economy
b.) liklihood work will lead to marketable product
c.) liklihood product will attract further funding