Krasznahorkay, A. J. (1 de enero de 2016). «Observation of Anomalous Internal Pair Creation in». Physical Review Letters116 (4). doi:10.1103/PhysRevLett.116.042501. Consultado el 3 de marzo de 2017. «In the present work, we reinvestigated the anomalies observed previously in the internal pair creation of iso- vector (17.6 MeV) and isoscalar (18.15 MeV) M1 transitions in 8Be».
Krasznahorkay, A. J. (1 de enero de 2016). «Observation of Anomalous Internal Pair Creation in». Physical Review Letters116 (4). doi:10.1103/PhysRevLett.116.042501. Consultado el 3 de marzo de 2017. «The deviation between the experimental and theoretical angular correlations is significant and can be described by assuming the creation and subsequent decay of a Jπ =1+ boson with mass m0c2=16.70+-0.35(stat)+-0.5(syst)MeV».
Krasznahorkay, A. J. (1 de enero de 2016). «Observation of Anomalous Internal Pair Creation in». Physical Review Letters116 (4). doi:10.1103/PhysRevLett.116.042501. Consultado el 3 de marzo de 2017. «In the present work, we reinvestigated the anomalies observed previously in the internal pair creation of iso- vector (17.6 MeV) and isoscalar (18.15 MeV) M1 transitions in 8Be».
Krasznahorkay, A. J. (1 de enero de 2016). «Observation of Anomalous Internal Pair Creation in». Physical Review Letters116 (4). doi:10.1103/PhysRevLett.116.042501. Consultado el 3 de marzo de 2017. «The deviation between the experimental and theoretical angular correlations is significant and can be described by assuming the creation and subsequent decay of a Jπ =1+ boson with mass m0c2=16.70+-0.35(stat)+-0.5(syst)MeV».
Dobrescu, Bogdan (Septiembre de 2015). «Materia Oscura Compleja». Investigación y Ciencia (468). ISSN0210-136X.
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«DarkLight Home Page». dmtpc.mit.edu. Archivado desde el original el 5 de noviembre de 2013. Consultado el 2 de marzo de 2017. «Using an intense electron beam at the free electron laser (FEL) facility at Jefferson Lab in Virginia, USA, the experiment will attempt to observe a "heavy photon", the A′ (pronounced "A-prime"), by looking for a resonance peak at the A′ mass in the electron-positron invariant mass spectrum.»
«DarkLight Home Page». dmtpc.mit.edu. Archivado desde el original el 5 de noviembre de 2013. Consultado el 2 de marzo de 2017. «Using an intense electron beam at the free electron laser (FEL) facility at Jefferson Lab in Virginia, USA, the experiment will attempt to observe a "heavy photon", the A′ (pronounced "A-prime"), by looking for a resonance peak at the A′ mass in the electron-positron invariant mass spectrum.»
