Add to ORKGThe observation of neutrinoless double beta decay would allow to shed light onto the particle nature of neutrinos. Gerda is aiming to perform a background-free search for this process using high purity germanium detectors enriched in (76)Ge operated in liquid argon. This goal relies on the application of active background suppression techniques. A low background light instrumentation has been installed for Phase II to detect events with coincident energy deposition in the nearby liquid argon. The intended background index of ∼10(−)(3) cts/(keV·ky·yr) has been confirmed
Liquid argon as active shielding and coolant for bare germanium detectors: A novel background suppre...
Many extensions of the Standard Model of particle physics explain the dominance of matter over antim...
Many extensions of the Standard Model of particle physics explain the dominance of matter over antim...
The observation of neutrinoless double beta decay would allow to shed light onto the particle nature...
LArGe is a GERDA low-background test facility to study novel background suppression methods in a low...
The ability to detect liquid argon scintillation light from within a denselypacked high-purity germa...
International audienceThe ability to detect liquid argon scintillation light from within a densely p...
Many extensions of the Standard Model of particle physics explain the dominance of matter over antim...
Measurements with a bare p-type high purity germanium diode (HPGe) submerged in a 19 kg liquid argon...
LArGe is a Gerda low-background test facility to study novel background suppression methods in a low...
Many extensions of the Standard Model of particle physics explain the dominance of matter over antim...
Measurements with a bare p-type high purity germanium diode (HPGe) submerged in a 19 kg liquid argon...
The search for neutrinoless double-beta decay (0νββ) is one of the most active fields in modern part...
The GERmanium Detector Array, GERDA, will search for neutrinoless double beta decay of 76Ge by opera...
LArGe is a GERDA low-background test facility to study novel background suppression methods in a low...
Liquid argon as active shielding and coolant for bare germanium detectors: A novel background suppre...
Many extensions of the Standard Model of particle physics explain the dominance of matter over antim...
Many extensions of the Standard Model of particle physics explain the dominance of matter over antim...
The observation of neutrinoless double beta decay would allow to shed light onto the particle nature...
LArGe is a GERDA low-background test facility to study novel background suppression methods in a low...
The ability to detect liquid argon scintillation light from within a denselypacked high-purity germa...
International audienceThe ability to detect liquid argon scintillation light from within a densely p...
Many extensions of the Standard Model of particle physics explain the dominance of matter over antim...
Measurements with a bare p-type high purity germanium diode (HPGe) submerged in a 19 kg liquid argon...
LArGe is a Gerda low-background test facility to study novel background suppression methods in a low...
Many extensions of the Standard Model of particle physics explain the dominance of matter over antim...
Measurements with a bare p-type high purity germanium diode (HPGe) submerged in a 19 kg liquid argon...
The search for neutrinoless double-beta decay (0νββ) is one of the most active fields in modern part...
The GERmanium Detector Array, GERDA, will search for neutrinoless double beta decay of 76Ge by opera...
LArGe is a GERDA low-background test facility to study novel background suppression methods in a low...
Liquid argon as active shielding and coolant for bare germanium detectors: A novel background suppre...
Many extensions of the Standard Model of particle physics explain the dominance of matter over antim...
Many extensions of the Standard Model of particle physics explain the dominance of matter over antim...