Citation: E. Somersalo et al., COMPUTATIONAL METHODS FOR ANALYZING ELECTRON MULTIPACTING IN RF STRUCTURES, Particle accelerators, 59(2), 1998, pp. 107-141
Citation: Wj. Knott et al., THE HYDROGEN-ATOM ABSTRACTION REACTION CO-]HCO++H - TRANSLATIONAL ANDINTERNAL ENERGY-DEPENDENCE OF THE INTEGRAL CROSS-SECTION(H2), The Journal of chemical physics, 108(2), 1998, pp. 527-533
Authors:
SHU QS
FOUAIDY M
JUNQUERA T
MOELLER WD
PROCH D
Citation: Qs. Shu et al., HIGHEST PERFORMANCE OF TESLA 9-CELL SUPERCONDUCTING RF CAVITIES BY OVERCOMING QUENCHES IN SUPERFLUID LHE, IEEE transactions on applied superconductivity, 7(2), 1997, pp. 371-374
Authors:
PEKELER M
FULJAHN T
SCHMUSER P
PADAMSEE H
CHAMPION M
CRAWFORD C
GRABER J
MATHEISEN A
MOLLER WD
PROCH D
Citation: M. Pekeler et al., THERMOMETRIC STUDY OF ELECTRON-EMISSION IN A 1.3 GHZ SUPERCONDUCTING CAVITY, Particle accelerators, 53(1-4), 1996, pp. 35-52
Citation: T. Trickl et al., THE LYMAN-BIRGE-HOPFIELD SYSTEM OF NITROGEN - REVISED CALCULATION OF THE ENERGY-LEVELS, Journal of molecular spectroscopy, 171(2), 1995, pp. 374-384
Citation: Wj. Knott et al., A GUIDED-ION BEAM STUDY OF THE HYDROGEN-ATOM TRANSFER-REACTION OF STATE-SELECTED N-2(-2 AT COLLISION ENERGIES RANGING FROM SUBTHERMAL TO 2-EV (CM)() WITH H), The Journal of chemical physics, 102(1), 1995, pp. 214-225
Citation: T. Trickl et al., RESONANCE-ENHANCED 2- THE LYMAN-BIRGE-HOPFIELD BAND SYSTEM(2 PHOTON IONIZATION OF NITROGEN ), Journal of molecular spectroscopy, 162(1), 1993, pp. 184-229
Citation: G. Sha et al., PHOTOELECTRON ANGULAR-DISTRIBUTIONS AND VIBRATIONAL BRANCHING RATIOS OF CO (2-PHOTON IONIZATION VIA THE B 1-SIGMA+ STATE(1)), The Journal of chemical physics, 99(6), 1993, pp. 4334-4339
Citation: G. Sha et al., PHOTOELECTRON ANGULAR-DISTRIBUTION AND ION VIBRATIONAL BRANCHING RATIO - THE (2-PHOTON IONIZATION OF E(1)PI-STATE-ALIGNED CO MOLECULES(1)), The Journal of chemical physics, 99(10), 1993, pp. 7687-7695