Measurements of Compton Scattered Transition Radiation at High Lorentz Factors
Nucl.Instrum.Meth. A524 (2004) 257-263 X-ray transition radiation can be used to measure the Lorentz factor of relativistic particles. Standard transition radiation detectors (TRDs) typically incorporate thin plastic foil radiators and gas-filled x-ray detectors, and are sensitive up to \gamma ~ 10^...
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Zusammenfassung: | Nucl.Instrum.Meth. A524 (2004) 257-263 X-ray transition radiation can be used to measure the Lorentz factor of
relativistic particles. Standard transition radiation detectors (TRDs)
typically incorporate thin plastic foil radiators and gas-filled x-ray
detectors, and are sensitive up to \gamma ~ 10^4. To reach higher Lorentz
factors (up to \gamma ~ 10^5), thicker, denser radiators can be used, which
consequently produce x-rays of harder energies (>100 keV). At these energies,
scintillator detectors are more efficient in detecting the hard x-rays, and
Compton scattering of the x-rays out of the path of the particle becomes an
important effect. The Compton scattering can be utilized to separate the
transition radiation from the ionization background spatially. The use of
conducting metal foils is predicted to yield enhanced signals compared to
standard nonconducting plastic foils of the same dimensions. We have designed
and built a Compton Scatter TRD optimized for high Lorentz factors and exposed
it to high energy electrons at the CERN SPS. We present the results of the
accelerator tests and comparisons to simulations, demonstrating 1) the
effectiveness of the Compton Scatter TRD approach; 2) the performance of
conducting aluminum foils; and 3) the ability of a TRD to measure energies
approximately an order of magnitude higher than previously used in very high
energy cosmic ray studies. |
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DOI: | 10.48550/arxiv.hep-ex/0209038 |