CERN, using the antiprotons delivered by the AD accelerator. AEgIS is a collaboration of physicists from all around the world.
The primary scientific goal of the AEgIS experiment is the direct measurement of the Earth’s gravitational acceleration g on antihydrogen. In the first phase of the experiment, a gravity measurement with 1% precision will be carried out by sending an antihydrogen beam through a classical Moire deflectometer coupled to a position sensitive detector. This will represent the first direct measurement of a gravitational effect on an antimatter system (more details).
An efficient formation of cooled positronium atoms is a requisite for the production of antihydrogen in the AEgIS experiment. Porous materials are necessary to produce a high yield of Ps atoms as well as to cool Ps through collisions with the inner walls of the pores.
Positron annihilation spectroscopy (PAS) is used to monitor thin hybrid solar cells in order to obtain depth-resolved data in collaboration with the Italian Institute of Technology (IIT) from Milan.
Electric Control of Magnetization in Spintronic Devices is also studied by means of PAS in collaboration with Spintronic Laboratory of L-NESS.
02.03.15: The Positron Group has published (PNAS magazine) an advanced study on amorphous indium-gallium-zinc-oxide (IGZO) semiconductors in collaboration with the Group of Tobin Marks and Antonio Facchetti of the Northwestern University. In this work is demonstrated that the new coating technique, spray-combustion synthesis (SCS), produce IGZO films of excelent quality at low temperatures and for short times compared to the sputtering conventional technique.
28.07.14: The AEgIS collaboration at CERN has demonstrated a method to measure a very small deflection of an antimatter beam (smaller than the thickness of a human hair). The method has been tested by measuring the deviation of an antiproton beam (Nature Communications).
25.05.13: La Fisica in Piazza (Milan)
07.05.13: The Positron Group has published an advanced review on Meoporous Materials for antihydrogen production; Hydrophobic mesoporous silica with open pores such as MCM-41 and aerogel show remarkable features for antihydrogen formation at low temperature.
17.04.12: L-NESS presentation (Italian: video)
16.03.12: The SiGe epitaxy group of L-NESS have made a Sience work on "Scaling Hetero-Epitaxy from Layers to Three-Dimensional Crystals" in collaboration with the ETH Zürich and Università di Milano-Bicocca. A photography of this work was selected for cover of Science.