Diagnosing atmospheric communication of a sealed monitor chamber.

Daily output variations of up to +/- 2% were observed for a protracted time on a Varian TrueBeam (R) STx; these output variations were hypothesized to be the result of atmospheric communication of the sealed monitor chamber. Daily changes in output relative to baseline, measured with an ionization chamber array (DQA3) and the amorphous silicon flat panel detector (IDU) on the TrueBeam (R), were compared with daily temperature-pressure corrections (P-TP) determined from sensors within the DQA3. Output measurements were performed using a Farmer (R) ionization chamber over a 5-hour period, during which there was controlled variation in the monitor chamber temperature. The root mean square difference between percentage output change from baseline measured with the DQA3 and IDU was 0.50% over all measurements. Over a 7-month retrospective review of daily changes in output andP(TP), weak correlation (R-2 = 0.30) was observed between output andP(TP)for the first 5 months; for the final 2 months, daily output changes were linearly correlated with changes inP(TP), with a slope of 0.84 (R-2 = 0.89). Ionization measurements corrected for ambient temperature and pressure during controlled heating and cooling of the monitor chamber differed from expected values for a sealed monitor chamber by up to 4.6%, but were consistent with expectation for an air-communicating monitor chamber within uncertainty (1.3%,k = 2). Following replacement of the depressurized monitor chamber, there has been no correlation between daily percentage change in output andP(TP)(R-2 = 0.09). The utility of control charts is demonstrated for earlier identification of changes in the sensitivity of a sealed monitor chamber.