The Young-Feynman two-slit experiment for single electrons was carried out by inserting two nanometric slits and a fast recording system, capable of detecting the electron arrival-time, in a conventional transmission electron microscope. The sensor, designed for experiments at future high energy colliders, is based on a custom 4096 Monolithic Active Pixels CMOS chip, is equipped with a fast readout chain and can manage up to 10^6 frames per second, allowing the collection of high statistic samples of single electron events within a time interval compatible with the stability of the experimental setup and the coherence conditions of the illumination. For the first time in a single electron two-slit experiment, the time distribution of electron arrivals was obtained.
Gian Luigi Alberghi, R. Doná, A. Gabrielli, F. Giorgi, G. Matteucci, N. Semprini Cesari, et al. (2013). Single Electron Interference and Diffraction Experiments with a High Energy Physics Detector. POS PROCEEDINGS OF SCIENCE, RD13, 025-01-025-08.
Single Electron Interference and Diffraction Experiments with a High Energy Physics Detector
ALBERGHI, GIAN LUIGI;DONA', ROBERTO;GABRIELLI, ALESSANDRO;GIORGI, FILIPPO MARIA;MATTEUCCI, GIORGIO;SEMPRINI CESARI, NICOLA;VILLA, MAURO;ZOCCOLI, ANTONIO;
2013
Abstract
The Young-Feynman two-slit experiment for single electrons was carried out by inserting two nanometric slits and a fast recording system, capable of detecting the electron arrival-time, in a conventional transmission electron microscope. The sensor, designed for experiments at future high energy colliders, is based on a custom 4096 Monolithic Active Pixels CMOS chip, is equipped with a fast readout chain and can manage up to 10^6 frames per second, allowing the collection of high statistic samples of single electron events within a time interval compatible with the stability of the experimental setup and the coherence conditions of the illumination. For the first time in a single electron two-slit experiment, the time distribution of electron arrivals was obtained.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
