Abstract
The symmetries of the chromatic correction sections in the Stanford Linear Collider Final Focus System allows a high-resolution determination of the pulse-to-pulse energy fluctuations by exploiting the information from beam position monitors (BPMs) in regions of large dispersion. By correlating this signal with other BPMs, one can infer the dispersion function as well as spatial components of transfer matrices anywhere in the arcs and the Final Focus System, without interrupting the normal machine operation. We present results from data samples which were recorded during both periods of stable machine operation and periods when the linac energy was intentionally varied.
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