Abstract
A novel approach for rapid nondestructive trace analysis is presented, based on the detection of short-lived high energy $beta$ emitters (10 msec less than or equal to t/sub 1/2/ less than or equal to 1 sec) produced by charged particle bombardment. Lithium, boron, and carbon were determined via $sup 7$Li(d,p)$sup 3$Li, $sup 11$B(d,p)$sup 12$B and $sup 12$C(p,n)$sup 12$N, respectively. These elements were measured at the 1- to 350-ppM level with a relative precision of 5 to 30 percent in glasses, semiconductor materials, botanical specimens, and metals. Experimental detection limits are 0.50 ppM for lithium, boron, and 50 ppM for carbon. (auth)
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