Add to ORKGThe flavor physics sector allows us to explore the possible extensions of the Standard Model (SM) in a complementary approach to the direct searches conducted i.e. at the Large Hadron Collider (LHC). New physics contributions at high energy scales can manifest themselves in low energy phenomena provided that the observables are carefully chosen, precisely measured and compared to accurate predictions. A stringent test of the SM predictions is the observation of the rare decay K+ → π+vv. The NA62 experiment at CERN is designed to measure the branching ratio (BR) of this decay with 10% precision. NA62 has been successfully launched in October 2014, took data in pilot runs in 2014 and 2015 achieving the commissioning of the detectors and the d...
The main aim of the NA62 experiment at CERN is to study the rare K+→π+νν¯ decay and measure its Bran...
K+ → π+v⊽ is one of the theoretically cleanest meson decay where to look for indirect effects of new...
The flavor physics sector allows us to explore the possible extensions of the Standard Model (SM) i...
The flavor physics sector allows us to explore the possible extensions of the Standard Model (SM) in...
Looking for phenomena beyond the Standard Model (SM) in rare decays is a complementary approach to d...
Looking for phenomena beyond the Standard Model (SM) in rare decays is a complementary approach to d...
The rare decay K+ → π+ v v is an excellent process to study the physics of flavour because of its ve...
The decay K+→π+νν¯ is highly suppressed in the Standard Model (SM), while its rate can be predicted ...
Looking for phenomena beyond the Standard Model (SM) in rare decays is a complementary approach to d...
The main aim of the NA62 experiment at CERN is to study the rare K+→π+νν¯ decay and measure its Bran...
K+ → π+v⊽ is one of the theoretically cleanest meson decay where to look for indirect effects of new...
The flavor physics sector allows us to explore the possible extensions of the Standard Model (SM) i...
The flavor physics sector allows us to explore the possible extensions of the Standard Model (SM) in...
Looking for phenomena beyond the Standard Model (SM) in rare decays is a complementary approach to d...
Looking for phenomena beyond the Standard Model (SM) in rare decays is a complementary approach to d...
The rare decay K+ → π+ v v is an excellent process to study the physics of flavour because of its ve...
The decay K+→π+νν¯ is highly suppressed in the Standard Model (SM), while its rate can be predicted ...
Looking for phenomena beyond the Standard Model (SM) in rare decays is a complementary approach to d...
The main aim of the NA62 experiment at CERN is to study the rare K+→π+νν¯ decay and measure its Bran...
K+ → π+v⊽ is one of the theoretically cleanest meson decay where to look for indirect effects of new...
The flavor physics sector allows us to explore the possible extensions of the Standard Model (SM) i...