Add to ORKGRecent anomalies in Be8 and He4 nuclear decays can be explained by postulating a fifth force mediated by a new boson X. The distributions of both transitions are consistent with the same X mass, 17 MeV, providing kinematic evidence for a single new particle explanation. In this work, we examine whether the new results also provide dynamical evidence for a new particle explanation, that is, whether the observed decay rates of both anomalies can be described by a single hypothesis for the X boson's interactions. We consider the observed Be8 and He4 excited nuclei, as well as a C12 excited nucleus; together these span the possible JP quantum numbers up to spin 1 for excited nuclei. For each transition, we determine whether scalar, pseudoscalar...
The anomaly found in the excited $$^8\text {Be}$$ nuclear transition to its ground state is attribut...
The existence of a light neutral boson, possible mediator of a new fundamental interaction, has been...
In view of the latest experimental results recently released by the ATOMKI collaboration, we critica...
Recent anomalies in Be8 and He4 nuclear decays can be explained by postulating a fifth force mediate...
Recently a 6.8σ anomaly has been reported in the opening angle and invariant mass distributions of e...
Recently a 6.8σ anomaly has been reported in the opening angle and invariant mass distributions of e...
The 6.8σ anomaly in excited Be8 nuclear decays via internal pair creation is fit well by a new parti...
Recently a 6.8σ anomaly has been reported in the opening angle and invariant mass distributions of e...
We consider several extensions of the Standard Model (SM) which can explain the anomalies observed b...
We report the results of a search for a light pseudoscalar particle a that couples to electrons and ...
The 6.8σ anomaly in excited 8Be nuclear decays via internal pair creation is fit well by a new parti...
Recently, we observed anomalous internal pair creation for the M1 transition depopulating the 18.15 ...
In a 2016 paper, an anomaly in the internal pair creation on theM1transition depopulating the 18....
International audienceWe estimate the values of Yukawa couplings of a light pseudoscalar A with a ma...
The Atomki collaboration has reported that unexpected excesses have been observed in the rare decays...
The anomaly found in the excited $$^8\text {Be}$$ nuclear transition to its ground state is attribut...
The existence of a light neutral boson, possible mediator of a new fundamental interaction, has been...
In view of the latest experimental results recently released by the ATOMKI collaboration, we critica...
Recent anomalies in Be8 and He4 nuclear decays can be explained by postulating a fifth force mediate...
Recently a 6.8σ anomaly has been reported in the opening angle and invariant mass distributions of e...
Recently a 6.8σ anomaly has been reported in the opening angle and invariant mass distributions of e...
The 6.8σ anomaly in excited Be8 nuclear decays via internal pair creation is fit well by a new parti...
Recently a 6.8σ anomaly has been reported in the opening angle and invariant mass distributions of e...
We consider several extensions of the Standard Model (SM) which can explain the anomalies observed b...
We report the results of a search for a light pseudoscalar particle a that couples to electrons and ...
The 6.8σ anomaly in excited 8Be nuclear decays via internal pair creation is fit well by a new parti...
Recently, we observed anomalous internal pair creation for the M1 transition depopulating the 18.15 ...
In a 2016 paper, an anomaly in the internal pair creation on theM1transition depopulating the 18....
International audienceWe estimate the values of Yukawa couplings of a light pseudoscalar A with a ma...
The Atomki collaboration has reported that unexpected excesses have been observed in the rare decays...
The anomaly found in the excited $$^8\text {Be}$$ nuclear transition to its ground state is attribut...
The existence of a light neutral boson, possible mediator of a new fundamental interaction, has been...
In view of the latest experimental results recently released by the ATOMKI collaboration, we critica...