TY  - GEN
UR  - https://archiv.ub.uni-heidelberg.de/volltextserver/11631/
AV  - public
A1  - Mocker, Anna
N2  - Impact ionisation is the basis for the method yielding the highest sensitivity for detection of dust particles in space. To cover a sufficiently big energy range for the investigation of dust particle impacts and the calibration of impact ionisation instruments, we attempted to supply the dust accelerator at the MPI for Nuclear Physics with laser ionisation. Therefore it is nec- essary to investigate the properties of both processes with respect to their comparability. For this, the characteristics of the emerging plasma, such as the velocity distribution of the ions, and the ion appearance in the TOF mass spectra are analysed and compared. The findings of this study show that, in general, laser ionisation plasma is not comparable to that generated by hypervelocity particle impacts. However, particular aspects of the the laser ionisation process can be used as a rough substitute for particle impacts, i.e. optimising and testing electronic components for impact ionisation instruments. Furthermore, the dependence of the plasma properties on the impact parameters were studied. Here, the experimental results imply that the defining parameter of the impact process is either the impact velocity or the energy density.
TI  - Comparison of impact ionisation plasma with laser ionisation
ID  - heidok11631
Y1  - 2010///
KW  - Einschlagsphysik 
KW  -  Einschlagsplasma 
KW  -  TOF-Massenspektrometrie 
KW  -  StoßwellenionisationImpact Physics 
KW  -  impact ionisation plasma 
KW  -  TOF mass spectroscopy 
KW  -  shock wave ionsation 
KW  -  cosmic dust 
KW  -  laser ionsation
ER  -