Background canceling surface alpha detector
First Claim
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1. A background canceling long range alpha detector for measuring alpha radiation emitted from a surface comprising:
- an electrically conductive enclosure defining a cavity, said enclosure having an opening at one end for positioning against a contaminated surface;
first signal plane means insulatively mounted in said cavity of said enclosure and spaced inwardly from said opening to define a first chamber within said cavity, said first chamber being between said first signal plane means and said opening, said first signal plane means being sized and positioned to substantially span said cavity so that air ions generated in said first chamber are electrostatically captured by said first signal plane means and said electrically conductive enclosure when an electric potential is applied between said enclosure and said first signal plane means, and said first signal plane means being configured to allow free circulation of air through said cavity and past said first signal plane means;
second signal plane means insulatively mounted in said cavity on the opposite side of said first signal plane means from said opening, to define a second chamber within said cavity, said second chamber being between said second signal plane means and said enclosure inward of said second signal plane means, said second signal plane means also being sized and positioned to substantially span said cavity so that air ions generated in said second chamber are electrostatically captured by said second signal plane means and said electrically conductive enclosure when an electrical potential is applied between said enclosure and said second signal plane means, and said second signal plane means also being configured to allow free circulation of air through said cavity and past said second signal plane means;
first indicator means attached to said first signal plane means for indicating a first electrical current produced by collection of air ions generated in said first chamber both by alpha particles emitted from said contaminated surface and by decay of radioactive gas emanated from said contaminated surface;
second indicator means attached to said second signal plane means for indicating a second electrical current produced by collection of air ions generated in said second chamber by decay of radioactive gas emanated from said contaminated surface; and
a voltage source connected between said first and second indicator means and said electrically conductive enclosure;
whereby a difference between said first and second electrical currents represents a measure of said alpha particles emitted from said contaminated surface, free of any background signal produced by decaying radioactive gas emanated from said contaminated surface.
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Abstract
A background canceling long range alpha detector which is capable of providing output proportional to both the alpha radiation emitted from a surface and to radioactive gas emanating from the surface. The detector operates by using an electrical field between first and second signal planes, an enclosure and the surface or substance to be monitored for alpha radiation. The first and second signal planes are maintained at the same voltage with respect to the electrically conductive enclosure, reducing leakage currents. In the presence of alpha radiation and radioactive gas decay, the signal from the first signal plane is proportional to both the surface alpha radiation and to the airborne radioactive gas, while the signal from the second signal plane is proportional only to the airborne radioactive gas. The difference between these two signals is proportional to the surface alpha radiation alone.
23 Citations
18 Claims
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1. A background canceling long range alpha detector for measuring alpha radiation emitted from a surface comprising:
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an electrically conductive enclosure defining a cavity, said enclosure having an opening at one end for positioning against a contaminated surface; first signal plane means insulatively mounted in said cavity of said enclosure and spaced inwardly from said opening to define a first chamber within said cavity, said first chamber being between said first signal plane means and said opening, said first signal plane means being sized and positioned to substantially span said cavity so that air ions generated in said first chamber are electrostatically captured by said first signal plane means and said electrically conductive enclosure when an electric potential is applied between said enclosure and said first signal plane means, and said first signal plane means being configured to allow free circulation of air through said cavity and past said first signal plane means; second signal plane means insulatively mounted in said cavity on the opposite side of said first signal plane means from said opening, to define a second chamber within said cavity, said second chamber being between said second signal plane means and said enclosure inward of said second signal plane means, said second signal plane means also being sized and positioned to substantially span said cavity so that air ions generated in said second chamber are electrostatically captured by said second signal plane means and said electrically conductive enclosure when an electrical potential is applied between said enclosure and said second signal plane means, and said second signal plane means also being configured to allow free circulation of air through said cavity and past said second signal plane means; first indicator means attached to said first signal plane means for indicating a first electrical current produced by collection of air ions generated in said first chamber both by alpha particles emitted from said contaminated surface and by decay of radioactive gas emanated from said contaminated surface; second indicator means attached to said second signal plane means for indicating a second electrical current produced by collection of air ions generated in said second chamber by decay of radioactive gas emanated from said contaminated surface; and a voltage source connected between said first and second indicator means and said electrically conductive enclosure; whereby a difference between said first and second electrical currents represents a measure of said alpha particles emitted from said contaminated surface, free of any background signal produced by decaying radioactive gas emanated from said contaminated surface. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
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14. A background canceling long range alpha detector for measuring alpha radiation emitted from a surface comprising:
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an electrically conductive enclosure defining a cavity, said electrically conductive enclosure having an opening at one end for positioning against a contaminated surface; first signal plane means insulatively mounted in said cavity of said electrically conductive enclosure and spaced inward from said opening to define a first chamber within said cavity, said first chamber being between said first signal plane means and said opening, said first signal plane means being sized and positioned to substantially span said cavity so that air ions generated in said first chamber are electrostatically captured by said first signal plane means and said electrically conductive enclosure when an electric potential is applied between said enclosure and said first signal plane means, and said first signal plane means being configured to allow free circulation of air through said cavity and past said first signal plane means; second signal plane means insulatively mounted in said cavity inward and spaced apart from said first signal plane means, to define a second chamber within said cavity, said second chamber being between said second signal plane means and said enclosure inward of said second signal plane means, said second signal plane means also being sized and positioned to substantially span said cavity so that air ions generated in said second chamber are electrostatically captured by said second signal plane means and said electrically conductive enclosure when an electrical potential is applied between said enclosure and said second signal plane means, and said second signal plane means also being configured to allow free circulation of air through said cavity and past said second signal plane means; guard plane means insulatively mounted in said cavity between said first signal plane means and said second signal plane means for reducing leakage currents; first indicator means attached to said first signal plane means for indicating a current produced by collection of air ions generated in said first chamber both by alpha particles emitted from said contaminated surface and by decay of radioactive gas atoms emanated from said contaminated surface; second indicator means attached to said second signal plane for indicating a second electrical current generated in said second chamber by decay of said radioactive gas emanated from said contaminated surface; a voltage source connected between said first and second indicator means and said guard plane means, and said electrically conductive enclosure; whereby a difference between said first and second electrical currents represents a measure of said alpha particles emitted from said contaminated surface, free of background signal caused by decay of radioactive gas emanated from said contaminated surface. - View Dependent Claims (15, 16, 17, 18)
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Current AssigneeLos Alamos National Security LLC (Government of the United States of America)
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Original AssigneeRegents of the University of California (University of California)
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InventorsAllander, Krag S., MacArthur, Duncan W., Bounds, John A.
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Primary Examiner(s)Fields, Carolyn E.
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Assistant Examiner(s)Glick, Edward J.
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Application NumberUS08/382,333Time in Patent Office496 DaysField of Search250/374, 250/379, 250/380, 250/385.1, 250/382, 250/384US Class Current250/374CPC Class CodesG01T 1/18 with counting-tube arrangem...
