Difference between revisions of "MAB Papers"
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− | Ashmore, J. P.; Sang, R. T., Cathode design for a low-velocity metastable neon cold cathode discharge source. Measurement Science & Technology 2001, 12 (4), N17-N21. | + | * '''Ashmore, J. P.; Sang, R. T., Cathode design for a low-velocity metastable neon cold cathode discharge source. Measurement Science & Technology 2001, 12 (4), N17-N21.''' [http://cires.colorado.edu/jimenez-group/Reference/MAB_Papers/Ashmore-2001.pdf pdf] |
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− | + | * '''Auday, G.; Guillot, P.; Galy, J.; Brunet, H., Experimental study of the effective secondary emission coefficient for rare gases and copper electrodes. Journal of Applied Physics 1998, 83 (11), 5917-5921.''' [http://cires.colorado.edu/jimenez-group/Reference/MAB_Papers/Ashmore-2001.pdf pdf] | |
− | |||
− | + | * '''Baker, M.; Palmer, A. J.; Sang, R. T., A high flux metastable atomic discharge source with three-dimensional translation. Measurement Science & Technology 2003, 14 (4), N5-N8.''' [http://cires.colorado.edu/jimenez-group/Reference/MAB_Papers/Ashmore-2001.pdf pdf] | |
− | |||
− | + | * '''Berkout, V. D.; Doroshenko, V. M., Fragmentation of phosphorylated and singly charged peptide ions via interaction with metastable atoms. International Journal of Mass Spectrometry 2008, 278 (2-3), 150-157.''' [http://cires.colorado.edu/jimenez-group/Reference/MAB_Papers/Ashmore-2001.pdf pdf] | |
− | |||
− | + | * '''Dos Santos, F. P.; Perales, F.; Leonard, J.; Sinatra, A.; Wang, J.; Pavone, F. S.; Rasel, E.; Unnikrishnan, C. S.; Leduc, M., Efficient magneto-optical trapping of a metastable helium gas. European Physical Journal-Applied Physics 2001, 14 (1), 69-76.''' [http://cires.colorado.edu/jimenez-group/Reference/MAB_Papers/Ashmore-2001.pdf pdf] | |
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− | Searcy, J. Q., SUPERSONIC MOLECULAR-BEAM METASTABLE ATOM SOURCE INITIATED BY DIRECT DISCHARGE. Review of Scientific Instruments 1974, 45 (4), 589-590. | + | * '''Dumas, M. E.; Debrauwer, L.; Beyet, L.; Lesage, D.; Andre, F.; Paris, A.; Tabet, J. C., Analyzing the physiological signature of anabolic steroids in cattle urine using pyrolysis/metastable atom bombardment mass spectrometry and pattern recognition. Analytical Chemistry 2002, 74 (20), 5393-5404.''' [http://cires.colorado.edu/jimenez-group/Reference/MAB_Papers/Ashmore-2001.pdf pdf] |
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+ | * '''Fahey, D. W.; Parks, W. F.; Schearer, L. D., HIGH-FLUX BEAM SOURCE OF THERMAL RARE-GAS METASTABLE ATOMS. Journal of Physics E-Scientific Instruments 1980, 13 (4), 381-383.''' [http://cires.colorado.edu/jimenez-group/Reference/MAB_Papers/Ashmore-2001.pdf pdf] | ||
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+ | |||
+ | * '''Faubert, D.; Paul, G. J. C.; Giroux, J.; Bertrand, M. J., SELECTIVE FRAGMENTATION AND IONIZATION OF ORGANIC-COMPOUNDS USING AN ENERGY-TUNABLE RARE-GAS METASTABLE BEAM SOURCE. International Journal of Mass Spectrometry and Ion Processes 1993, 124 (1), 69-77.''' [http://cires.colorado.edu/jimenez-group/Reference/MAB_Papers/Ashmore-2001.pdf pdf] | ||
+ | |||
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+ | * '''Leasure, E. L.; Mueller, C. R.; Ridley, T. Y., HOT, METASTABLE ATOM, MOLECULAR-BEAM SOURCE. Review of Scientific Instruments 1975, 46 (5), 635-637.''' [http://cires.colorado.edu/jimenez-group/Reference/MAB_Papers/Ashmore-2001.pdf pdf] | ||
+ | |||
+ | |||
+ | * '''Palmer, A. J.; Baker, M.; Sang, R. T., Quantitative comparison of rare-gas cold cathode discharge metastable atomic beam sources. Review of Scientific Instruments 2004, 75 (11), 5056-5058.''' [http://cires.colorado.edu/jimenez-group/Reference/MAB_Papers/Ashmore-2001.pdf pdf] | ||
+ | |||
+ | |||
+ | * '''Searcy, J. Q., SUPERSONIC MOLECULAR-BEAM METASTABLE ATOM SOURCE INITIATED BY DIRECT DISCHARGE. Review of Scientific Instruments 1974, 45 (4), 589-590.''' [http://cires.colorado.edu/jimenez-group/Reference/MAB_Papers/Ashmore-2001.pdf pdf] | ||
+ | |||
Revision as of 11:54, 15 July 2009
Metastable Background
- Van Doren, J.M., Barlow, S.E., Depuy, C.H.,
- King 2005 Glow Discharge
- Penning Ionization 1970
MAB Design
- Ashmore, J. P.; Sang, R. T., Cathode design for a low-velocity metastable neon cold cathode discharge source. Measurement Science & Technology 2001, 12 (4), N17-N21. pdf
- Auday, G.; Guillot, P.; Galy, J.; Brunet, H., Experimental study of the effective secondary emission coefficient for rare gases and copper electrodes. Journal of Applied Physics 1998, 83 (11), 5917-5921. pdf
- Baker, M.; Palmer, A. J.; Sang, R. T., A high flux metastable atomic discharge source with three-dimensional translation. Measurement Science & Technology 2003, 14 (4), N5-N8. pdf
- Berkout, V. D.; Doroshenko, V. M., Fragmentation of phosphorylated and singly charged peptide ions via interaction with metastable atoms. International Journal of Mass Spectrometry 2008, 278 (2-3), 150-157. pdf
- Dos Santos, F. P.; Perales, F.; Leonard, J.; Sinatra, A.; Wang, J.; Pavone, F. S.; Rasel, E.; Unnikrishnan, C. S.; Leduc, M., Efficient magneto-optical trapping of a metastable helium gas. European Physical Journal-Applied Physics 2001, 14 (1), 69-76. pdf
- Dumas, M. E.; Debrauwer, L.; Beyet, L.; Lesage, D.; Andre, F.; Paris, A.; Tabet, J. C., Analyzing the physiological signature of anabolic steroids in cattle urine using pyrolysis/metastable atom bombardment mass spectrometry and pattern recognition. Analytical Chemistry 2002, 74 (20), 5393-5404. pdf
- Fahey, D. W.; Parks, W. F.; Schearer, L. D., HIGH-FLUX BEAM SOURCE OF THERMAL RARE-GAS METASTABLE ATOMS. Journal of Physics E-Scientific Instruments 1980, 13 (4), 381-383. pdf
- Faubert, D.; Paul, G. J. C.; Giroux, J.; Bertrand, M. J., SELECTIVE FRAGMENTATION AND IONIZATION OF ORGANIC-COMPOUNDS USING AN ENERGY-TUNABLE RARE-GAS METASTABLE BEAM SOURCE. International Journal of Mass Spectrometry and Ion Processes 1993, 124 (1), 69-77. pdf
- Leasure, E. L.; Mueller, C. R.; Ridley, T. Y., HOT, METASTABLE ATOM, MOLECULAR-BEAM SOURCE. Review of Scientific Instruments 1975, 46 (5), 635-637. pdf
- Palmer, A. J.; Baker, M.; Sang, R. T., Quantitative comparison of rare-gas cold cathode discharge metastable atomic beam sources. Review of Scientific Instruments 2004, 75 (11), 5056-5058. pdf
- Searcy, J. Q., SUPERSONIC MOLECULAR-BEAM METASTABLE ATOM SOURCE INITIATED BY DIRECT DISCHARGE. Review of Scientific Instruments 1974, 45 (4), 589-590. pdf
- Ashmore, J.P. and Sand R.T., Cathode design for a low-velocity metastable neon cold cathode discharge source, Measurement Science and Technology, 12, N18, 2001. pdf