Electrical and magnetic properties of OCS in the (0110) vibrational state measured by molecular-beam electric-resonance spectroscopy

TheaJ= OJ-doublet txnsitionsofOCS isotopes('6012C32S, I6 I2 33 I6 '\* 34 0 C S, 0 C S, '6013C32S and "O'\*C3\*S) in the (01' 0) vibrational state have been measured in a molecular-beam electric-resonance spectrometer equipped with a nozzle source. Rotation-vibration coupling constams and electric di

## Results are reported of high-precision measurements on electric and magnetic properties of the isotopic species of earbonyl sul&hide by molecular-beam electric-resonance spectroscopy. The properties obtained are the electric dipoie moment, the molecular magnetic moment, the anisotropy in the m

The molecular-heam electric-resonance method has been used to measure the radio frequency spectra of CsF in the rotational state J= I and vibrational states I\* = 0. 1. . . . . 8. The anal\-sis of the spectra yields rhe electric dipole moment and the quadrupole coupling constant as functions of I'.

The purpose of this study was to explore why changes in the molecular mobility associated with glass transition, the timescale of which is on the order of 100 s, can be detected by measuring the nuclear magnetic resonance relaxation times that reflect molecular motions on the order of 10 kHz and 1 M

N-type silicon doped with gold and lithium was investigated by Electron Paramagnetic Resonance (EPR) and Deep Level Transient Spectroscopy (DLTS), using two sets of samples with different defect concentrations of both gold and lithium. Photoluminescence (PL) on both sets of samples allowed to correl