The LW array presents a time lagged response after a flux step (up or down). The lag depends on the number of readouts of the array, and is a function of both the initial and the final accumulated charges. Different pixels have a slightly different response to a given flux step, resulting in a degraded flatness of the images after the step. Figures and show 6 examples of responses after flux steps with = 2 sec. For each example, as a function of the readout number, the upper panel shows the average pixel signal, and the lower panel shows the distortion of the image compared to the final reference image obtained by averaging the 10 last elementary images of the record. The difference between the running image and this final reference is flat-fielded using the difference between the final reference and the reference obtained before the flux step. The rms dispersion is plotted in two cases: i) single elementary images (dots), and ii) for 11 consecutive images averaged (crosses). This dispersion can be compared in the two cases to the corresponding noise that would be expected in stabilized regime (full and dotted lines, respectively). For all the examples shown, the number of readouts needed to return to the nominal flat-field exceeds 20.
Consequently, for every use of the LW array, it is recommended to let the signal stabilize for a number of readouts, before the exposures useful fo the observation (Of course, the data product will also include the stabilization exposures, which can eventually be used to improve the accuracy of the observation).
Figure: Examples of stabilization of the LW array after a flux
step (upper panels)
Figure: Examples of stabilization of the LW array after a flux
step (lower panels)
Figure: Flux step dependence of for the LW array
Figure gives using the photometric criterion that the average pixel has reached its final reference level within 10 % of the flux step amplitude. is plotted as a function of the destination level TO for the initial FROM levels 3, 10, 30, 100 and 300 ADUs.
The results in Figure are based on the analysis of 50 cases during the calibration of the flight model. A rough fit (within a factor 2) of the results is given by the following function:
Where :
FROM is the stabilized signal level in ADUs before the step (),
TO is the stabilized signal level in ADUs after the step
= 275, = 0.00, = 0.60