[1] Vobecký, M.: O radioaktivních prvcích a radioaktivitě v Listech chemických. Chem. Listy 91 (1997), 1056.

[2] Vobecký, M.: Contribution of the industrial chemical processing of pitchblende in Jáchymov to the first isolation of radium. Czech. J. Phys. 48 (1998), 21.

[3] Sutton, Ch.: Spaceship Neutrino. Cambridge University Press, 1992.

[4] Pauli, W.: Dopis ze 4. prosince 1930 účastníkům porady o radioaktivitě v Tübingenu. Viz např. Celebrating the Neutrino, Los Alamos Science, 25 (1997), 6.

[5] Brown, L. M.: The idea of the neutrino. Physics Today (Sept. 1978), 23.

[6] Cook, C. S., Langer, L. M.: The beta-spectrum of $^{64}$Cu as a test of the Fermi theory. Phys. Rev. 73 (1948), 601.

[7] Cook, C. S., Langer, L. M., Price, H. C., Jr.: The beta-spectrum of $^{35}$S and the mass of the neutrino. Phys. Rev. 75 (1948), 1395.

[8] Langer, L. M., Cook, C. S.: A high resolution nuclear spectrometer. Rev. Sci. Instr. 19 (1948), 257.

[9] Reines, F.: Neutrino — od poltergeista k částici. Čs. čas. fyz. 46 (1996), 199.

[10] Bergkvist, K.-E.: A high-luminosity, high-resolution study of the end-point behaviour of the tritium $\beta $-spectrum (I). Basic experimental procedure and analysis with regard to neutrino mass and neutrino degeneracy. Nucl. Phys. B 39 (1972), 317.

[11] Dragoun, O. et al.: Search for an admixture of heavy neutrino in the $\beta $-decay of $^{241}$Pu. J. Phys. G: Nucl. Part. Phys. 25 (1999), 1839.

[12] Dragoun, O., Ryšavý, M., Špalek, A.: Statistical tests of invariability of the measurement conditions in the $\beta $-ray spectroscopy. Nucl. Instrum. Meth. A391 (1997), 345.

[13] Hanna, G. C., Pontecorvo, B.: The $\beta $-spectrum of $^{3}$H. Phys. Rev. 75 (1949), 983.

[14] Curran, S. C., Angus, J., Cockroft, A. L.: The beta spectrum of tritium. Phys. Rev. 76 (1949), 853.

[15] Langer, L. M., Moffat, R. J. D.: The beta-spectrum of tritium and the mass of the neutrino. Phys. Rev. 88 (1952), 689.

[16] Röde, B., Daniel, H.: Measurement of the $^{3}$H $\beta $-ray spektrum and determination of an upper limit for the electron-antineutrino rest mass. Lett. Nuovo Cimento 5 (1972), 139.

[17] Dragoun, O., Jahn, P., Allers, H., Vobecký, M., Daniel, H.: Approximate internal conversion coefficients for N, O and P shell electrons. Phys. Lett. 28B (1968), 251.

[18] Dragoun, O., Plajner, Z., Martin, B., Kap-Herr, A. V.: Experimental evidence for the nuclear structure effect in internal conversion of N- and O-shell electrons. Phys. Lett. 29B (1969), 221.

[19] Lubimov, V. A., Novikov, E. G., Nozik, V. Z., Tretyakov, E. F., Kosik, V. S.: An estimate of the $\nu _{\rm e}$ mass from the $\beta $-spectrum of tritium in the valine molekule. Phys. Lett. 94B (1980), 266.

[20] Boris, S. et al.: Neutrino mass from beta spectrum in the decay of tritium. Phys. Rev. Lett. 58 (1987), 2019.

[21] Wilkerson, J. F.. et al.: Limit on the $\nu _{\rm e}$ mass from free-molecular-tritium beta decay. Phys. Rev. Lett. 58 (1987), 2023.

[22] Robertson, R. G. H., Knapp, D. A.: Direct measurements of neutrino mass. Ann. Rev. Nucl. Part. Sci. 38 (1988), 185.

[23] Holzschuh, E., Fritschi, M., Kündig, W.: Measurement of the electron neutrino mass from tritium $\beta $-decay. Phys. Lett. B 287 (1992), 381.

[24] Wilkerson, J. F.: Direct searches for neutrino mass. Nucl. Phys. B (Proc. Suppl.) 31 (1993), 32.

[25] Claxton, T. A., Shafroth, S., Meier, P. F.: Molecular final states after $\beta $ decay of tritium-substituted molecules. Phys. Rev. A 45 (1992), 6209.

[26] Shrock, R. E.: New tests for and bounds on neutrino masses and lepton mixing. Phys. Lett. 96B (1980), 159.

[27] Boehm, F., Vogel, P.: Physics of Massive Neutrinos. Cambridge University Press, Second edition, 1992.

[28] Schreckenbach, K., Colvin, G., Feilitzch, F. von: Search for mixing of heavy neutrinos in the $\beta ^{+}$ and $\beta ^{-}$ spectra of the $^{64}$Cu decay. Phys. Lett. 129B (1983), 265.

[29] Simpson, J. J.: Evidence of heavy-neutrino emission in beta decay. Phys. Rev. Lett. 54 (1985), 1891.

[30] Schwarzchield, B.: Four of five new experiments claim evidence for 17-keV neutrinos. Physics Today, May 1991, p. 17.

[31] Ohshima, T. et al.: No 17 keV neutrino: Admixture $<0.073$ % (95 % C. L.). Phys. Rev. D 47 (1993), 4840.

[32] Müller, S. et al.: Search for an admixture of a 17 keV neutrino in the $\beta $ decay of $^{35}$S. Z. Naturforsch. 49a (1994), 874.

[33] Morrison, D. R. O.: The rise and fall of the 17-keV neutrino. Nature 336 (1993), 29.

[34] Wietfeldt, F. E., Norman, E. B.: The 17 keV neutrino. Phys. Rep. 273 (1996), 149.

[35] Fleischmann, L. et al.: On dewetting dynamics of solid films of hydrogen isotopes and its influence on tritium $\beta $ spectroscopy. Eur. Phys. J. B16 (2000), 521.

[36] Weinheimer, Ch. et al.: Improved limit on the electron-antineutrino mass from tritium $\beta $-decay. Phys. Lett. B 300 (1993), 210.

[37] Kraus, Ch. et al.: Final results from phase II of the Mainz neutrino mass search in tritium $\beta $ decay. Eur. Phys. J. C40 (2005), 447.

[38] Lobashev, V. M.: The search for the neutrino mass by direct method in the tritium beta-decay and perspectives of study it in the project KATRIN. Nucl. Phys. A719 (2003), 153c.

[39] KATRIN Home page:. http://www-ik.fzk.de/katrin/

[40] Otten, E. W.: Squeezing the neutrino mass with new instruments. Nucl. Phys. News 5 (1995), No. 1, p. 11.

[41] Gatti, F. et al.: MARE proposal — Microcalorimeter Arrays for a Rhenium Experiment. http://crio.mib.infn.it/wig/silicini/proposal/

[42] Andrik, J. et al.: KATRIN Design Report 2004. FZKA Sci. Rep. 7090, MS-KP-0501, Report NPI ASCR Řež, EXP-01/2005. http://www-bibliothek.fzk.de/zb/berichte/FZKA7090.pdf

[43] Projekt KATRIN (i česky). http://ojs.ujf.cas.cz/~rysavy/katr1.htm

[44] Kašpar, J., Ryšavý, M., Špalek, A., Dragoun, O.: Effect of energy scale imperfections on results of neutrino mass measurements from $\beta $-decay. Nucl. Instr. Meth. A527 (2004), 423.

[45] Saenz, A., Jonsell, S., Froehlich, P.: Improved molecular final-state distribution of HeT$^{+}$ for the $\beta $-decay process of T$_{2}$. Phys. Rev. Lett. 84 (2000), 242.

[46] Yao, W.-M. et al.: Review of particle physics. J. Phys. G33 (2006), 1; http://pdg.lbl.gov

[47] Farzan, Y., Smirnov, A. Yu.: On the effective mass of the electron neutrino in beta decay. Phys. Lett. B 557 (2003), 224.

[48] Mateos, G., Navarro, J.: The use of neutrinos: a historical perspective. Eur. J. Phys. 27 (2006), 1257.

[49] Šimáně, Č.: Život mezi atomy aneb jak to vše u nás i jinde začalo. Ústav jaderného výzkumu Řež, a. s., 2005.

[50] Plajner, Z.: Magnetický spektrometr záření beta s krátkou čočkou. Čs. čas. fyz. 5 (1955), 204.

[51] Brabec, V.: 50 let jaderné spektroskopie v Řeži. PMFA 50 (2005), č. 3, 237.