[1] | F. Friedel, C. Röttele, L. Schimpf, J. Wolf, G. Drexlin, M. Hackenjos, A. Jansen, M. Steidl, and K. Valerius. Time-dependent simulation of the flow reduction of D2 and T2 in the KATRIN experiment. Vacuum, 159:161--172, 2019. [ bib | DOI | arXiv ] |
[2] | M. Arenz et al. The KATRIN Superconducting Magnets: Overview and First Performance Results. JINST, 13(08):T08005, 2018. [ bib | DOI | arXiv ] |
[3] | K. Altenmüller et al. Muon-induced background in the KATRIN main spectrometer. 2018. [ bib | arXiv ] |
[4] | M. Arenz et al. Reduction of stored-particle background by a magnetic pulse method at the KATRIN experiment. Eur. Phys. J., C78(9):778, 2018. [ bib | DOI | arXiv ] |
[5] | M. Arenz et al. Calibration of high voltages at the ppm level by the difference of 83mKr conversion electron lines at the KATRIN experiment. Eur. Phys. J., C78(5):368, 2018. [ bib | DOI | arXiv ] |
[6] | M. Arenz et al. First transmission of electrons and ions through the KATRIN beamline. JINST, 13(04):P04020, 2018. [ bib | DOI | arXiv ] |
[7] | Carsten Röttele. Results of the first Cool-down of the KATRIN Cryogenic Pumping Section. J. Phys. Conf. Ser., 888(1):012228, 2017. [ bib | DOI ] |
This file was generated by bibtex2html 1.98.