A.A. Golubev

An upper limit on electron antineutrino mass from Troitsk experiment

An electron antineutrino mass has been measured in tritium

Direct search for neutrino mass and anomaly in the tritium beta-spectrum: Status of “Troitsk neutrino mass” experiment

\ensuremath{\beta}

Results of the troitsk experiment on the search for the electron antineutrino rest mass in tritium beta-decay

decay in the Troitsk

Upper limit on additional neutrino mass eigenstate in 2 to 100 eV region from “Troitsk nu-Mass” data

\ensuremath{\nu}

The search for an additional neutrino mass eigenstate in the 2–100 eV region from ‘Troitsk nu-mass’ data: a detailed analysis

-mass experiment. The setup consists of a windowless gaseous tritium source and an electrostatic electron spectrometer. The whole data set acquired from 1994 to 2004 was reanalyzed. A thorough selection of data with the reliable experimental conditions has been performed. We checked every known systematic effect and obtained the following experimental estimate for neutrino mass squared

Measurement of the electron antineutrino mass in tritium beta decay in the Troitsk nu-mass experiment

{m}_{\ensuremath{\nu}}^{2}=\ensuremath{-}0.67\ifmmode\pm\else\textpm\fi{}2.53\text{ }\text{ }{\mathrm{eV}}^{2}

Neutrino mass and anomaly in the tritium beta-spectrum. Results of the “Troitsk ν-mass” experiment

. This gives an experimental upper sensitivity limit of

First measeurements in search for keV-sterile neutrino in tritium beta-decay by troitsk nu-mass experiment

{m}_{\ensuremath{\nu}}l2.2\text{ }\text{ }\mathrm{eV}

Neutrino rest mass and anomaly in the tritium β spectrum

, 95% C.L. and upper limit estimates

Direct search for mass of neutrino and anomaly in the tritium beta-spectrum

{m}_{\ensuremath{\nu}}l2.12\text{ }\text{ }\mathrm{eV}