CERN Accelerating science

Small and medium experiments group

The AEgIS Experiment

The AEgIS experiment (Antimatter Experiment: Gravity, Interferometry, Spectroscopy) at CERN is designed to examine the effects of gravity on antimatter.

CAST opens a new window into dark energy and dark matter after 11 years of operation and continuous renewal.

by Dieter Hoffmann (TU-Darmstadt) & Konstantin Zioutas (University of Patras)

CAST is searching for these particles with a telescope designed to detect axions from the Sun. It uses an unexpected hybrid of equipment from particle physics and astronomy.

Kara Lynch has been awarded the 2013 Early Career award from UK's Institute of Physics for her research in ISOLDE.

ISOLDE has recently published a series of papers in Nature and Nature communication.

The CLOUD Experiment

by Jasper Kirkby, on behalf of the CLOUD Collaboration

​Jasper Kirkby, CLOUD spokesperson, gives an overview of the CLOUD experiment after four years operation at the CERN PS. 

Discussing with Maria Borge and Yacine Kadi

Meeting the challenges of the High-Energy ISOLDE!

by Panos Charitos

Maria Borge (ISOLDE's spokesperson) and Yacine Kadi (project leader of the HIE-ISOLDE) discuss the importance of reaching a higher energy regime with the HIE-ISOLDE and the technical challenges of this project

ISOLTRAP’s MR-ToF mass separator to plumb a neutron star

by Robert Wolf for the ISOLTRAP collaboration

Measurements with ISOLTRAP at ISOLDE-CERN play a key-role in studying the interior of neutron stars and help building an equation of state for this special class of object.


by E.Chiaveri , on behalf of n_TOF Collaboration

Since   2001,  with its rich scientific program,  the   n_TOF   experiment  is   contributing to  the   world efforts   aimed   at  collecting   high  quality  data,  mostly  on  capture   and  fission  neutron-‐induced reactions. The  realization of the  Experimental  Area  2  (EAR-‐2)  with  its  enhanced capabilities will  be  of  utmost importance  for the   neutron physics   community   and will   also  be complementary   to   other  future installations.

The COMPASS  Collaboration comprises about  230   physicists and the experiment   is located   in  EHN2 (888) in  the North Area. COMPASS measured in  2012   the  electric  and  magnetic  polarizability   of  the pion  and  collect  for the first  time  data  on  the  kaon  polarizability.  These  polarizabilitites  are   fundamental  properties of   pions/kaons  and can be calculated with high  precision  in  Chiral   Perturbation  Theory –  a   low energy expansion of   QCD.



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