A new type of radio frequency (RF) timing technique is presented. It is based on a helical deflector, which performs circular or elliptical sweeps of photo- or secondary electrons, accelerated to keV energies, by means of RF fields in the 500–1000 MHz range. By converting a time distribution of the electrons to a hit position distribution on a circle or ellipse, this device achieves extremely precise timing, similar to streak cameras. Detection of the scanned electrons, using a position sensitive detector based on microchannel plates and a delay line anode, resulted in a timing resolution of 10 ps, which can be potentially improved to 1 ps. RF-Timer-based single photon and heavy ion detectors have potential applications in different fields of science and industry, which include high energy nuclear physics and imaging technologies. This technique could play a crucial role in developing of sub 10 ps Time-of-Flight Positron Emission Tomography.
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Abstract Free, publicly-accessible full text available February 1, 2025 -
Gogami, T. ; Chen, C. ; Kawama, D. ; Achenbach, P. ; Ahmidouch, A. ; Albayrak, I. ; Androic, D. ; Asaturyan, A. ; Asaturyan, R. ; Ates, O. ; et al ( , Physical Review C)
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Gogami, T. ; Chen, C. ; Kawama, D. ; Achenbach, P. ; Ahmidouch, A. ; Albayrak, I. ; Androic, D. ; Asaturyan, A. ; Asaturyan, R. ; Ates, O. ; et al ( , Physical Review C)
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Nakamura, S. N. ; Matsumura, A. ; Okayasu, Y. ; Seva, T. ; Rodriguez, V. M. ; Baturin, P. ; Yuan, L. ; Acha, A. ; Ahmidouch, A. ; Androic, D. ; et al ( , Physical Review Letters)
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Tang, L. ; Chen, C. ; Gogami, T. ; Kawama, D. ; Han, Y. ; Yuan, L. ; Matsumura, A. ; Okayasu, Y. ; Seva, T. ; Rodriguez, V. M. ; et al ( , Physical Review C)