Kinematically complete experiments using cold target recoil ion momentum spectroscopy. Dörner, R., Mergel, V., Spielberger, L., Achler, M., Khayyat, K., Vogt, T., Bräuning, H., Jagutzki, O., Weber, T., Ullrich, J., Moshammer, R., Unverzagt, M., Schmitt, W., Khemliche, H., Prior, M., Cocke, C., Feagin, J., Olson, R., & Schmidt-Böcking, H. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, 124(2-3):225–231, April, 1997.
Kinematically complete experiments using cold target recoil ion momentum spectroscopy [link]Paper  doi  abstract   bibtex   
Cold Target Recoil Ion Momentum Spectroscopy allows the detection of the three-dimensional momentum vector of the recoiling product ion from ion, electron or photon atom collisions with 4π solid angle and high resolution. It can be combined with large area position-sensitive detectors for electron detection or measurement of the projectile charge-state and scattering angle. Such ‘reaction microscopes’ cover the full correlated momentum space of all fragments of an atomic reaction yielding kinematically complete information for each reaction event. For the first time in atomic collision physics fully differential data became available in the sense that not only the momenta of all fragments, but also the complete momentum space is observed in one experiment. Recent results achieved with this new technique for slow p-He collisions and threshold photo ionization of He will be discussed.
@article{Dorner1997a,
	title = {Kinematically complete experiments using cold target recoil ion momentum spectroscopy},
	volume = {124},
	issn = {0168583X},
	url = {http://dx.doi.org/10.1016/S0168-583X(96)00877-4},
	doi = {10.1016/S0168-583X(96)00877-4},
	abstract = {Cold Target Recoil Ion Momentum Spectroscopy allows the detection of the three-dimensional momentum vector of the recoiling product ion from ion, electron or photon atom collisions with 4π solid angle and high resolution. It can be combined with large area position-sensitive detectors for electron detection or measurement of the projectile charge-state and scattering angle. Such ‘reaction microscopes’ cover the full correlated momentum space of all fragments of an atomic reaction yielding kinematically complete information for each reaction event. For the first time in atomic collision physics fully differential data became available in the sense that not only the momenta of all fragments, but also the complete momentum space is observed in one experiment. Recent results achieved with this new technique for slow p-He collisions and threshold photo ionization of He will be discussed.},
	number = {2-3},
	urldate = {2012-11-12},
	journal = {Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms},
	author = {Dörner, R. and Mergel, V. and Spielberger, L. and Achler, M. and Khayyat, Kh. and Vogt, T. and Bräuning, H. and Jagutzki, O. and Weber, T. and Ullrich, J. and Moshammer, R. and Unverzagt, M. and Schmitt, W. and Khemliche, H. and Prior, M.H. and Cocke, C.L. and Feagin, J. and Olson, R.E. and Schmidt-Böcking, H.},
	month = apr,
	year = {1997},
	keywords = {\#nosource},
	pages = {225--231},
}
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