User menu

Generation of neutral atomic beams utilizing photodetachment by high power diode laser stacks

Bibliographic reference O’Connor, A. P. ; Grussie, F. ; Bruhns, H. ; de Ruette, N. ; Koenning, T. P. ; et. al. Generation of neutral atomic beams utilizing photodetachment by high power diode laser stacks. In: Review of Scientific Instruments, Vol. 86, no.11, p. 113306 (2015)
Permanent URL
  1. D. H. Wooden, S. B. Charnley, and P. Ehrenfreund, “Composition and evolution of interstellar clouds,” in Comets II (University of Arizona Press, Tucson, 2004), pp. 33–66.
  2. Wakelam V., Loison J.-C., Herbst E., Talbi D., Quan D., Caralp F., A sensitivity study of the neutral-neutral reactions C + C$_{\sf 3}$ and C + C$_{\sf 5}$ in cold dense interstellar clouds, 10.1051/0004-6361:200810967
  3. Snow Theodore P., Bierbaum Veronica M., Ion Chemistry in the Interstellar Medium, 10.1146/annurev.anchem.1.031207.112907
  4. Urbain X., Cornet A., Brouillard F., Giusti-Suzor A., Dynamics of an elementary bond-forming process: Associative ionization in H(1s)+H(2s) collisions, 10.1103/physrevlett.66.1685
  5. Daranlot J., Jorfi M., Xie C., Bergeat A., Costes M., Caubet P., Xie D., Guo H., Honvault P., Hickson K. M., Revealing Atom-Radical Reactivity at Low Temperature Through the N + OH Reaction, 10.1126/science.1213789
  6. O’Connor A. P., Urbain X., Stützel J., Miller K. A., Ruette N. de, Garrido M., Savin D. W., REACTION STUDIES OF NEUTRAL ATOMIC C WITH ${{\rm{H}}}_{3}^{+}$ USING A MERGED-BEAMS APPARATUS, 10.1088/0067-0049/219/1/6
  7. Hirsch L. S., Yu Zhonghai, Buczkowski S. L., Myers T. H., Richards-Babb M. R., The use of atomic hydrogen for substrate cleaning for subsequent growth of II-VI semiconductors, 10.1007/s11664-997-0190-9
  8. Hemsworth R., Decamps H., Graceffa J., Schunke B., Tanaka M., Dremel M., Tanga A., De Esch H.P.L., Geli F., Milnes J., Inoue T., Marcuzzi D., Sonato P., Zaccaria P., Status of the ITER heating neutral beam system, 10.1088/0029-5515/49/4/045006
  9. Kovari M., Crowley B., Laser photodetachment neutraliser for negative ion beams, 10.1016/j.fusengdes.2010.04.055
  10. J. Fink and A. Frank, “Photodetachment of electrons from negative ions in a 200 keV deuterium beam source,” UCRL-16844, Lawrence Livermore National Laboratory, 1975.
  11. Van Zyl B., Utterback N. G., Amme R. C., Generation of a fast atomic hydrogen beam, 10.1063/1.1134758
  12. Havener C. C., Huq M. S., Krause H. F., Schulz P. A., Phaneuf R. A., Merged-beams measurements of electron-capture cross sections forO5++H at electron-volt energies, 10.1103/physreva.39.1725
  13. Thomas J. D., Kvale T. J., Strasser S. M. Z., Seely D. G., Havener C. C., McDaniel Floyd D., Doyle Barney L., Production, Characterization, and Measurement of H(D) Beams on the ORNL Merged-Beams Experiment, 10.1063/1.3120002
  14. Bruhns H., Kreckel H., Savin D. W., Seely D. G., Havener C. C., Low-energy charge transfer for collisions ofSi3+with atomic hydrogen, 10.1103/physreva.77.064702
  15. Draganić I. N., Seely D. G., Havener C. C., Low-energy charge transfer betweenC5+and atomic hydrogen, 10.1103/physreva.83.054701
  16. Andersen T., Haugen H. K., Hotop H., Binding Energies in Atomic Negative Ions: III, 10.1063/1.556047
  17. Andersen T., Atomic negative ions: structure, dynamics and collisions, 10.1016/j.physrep.2004.01.001
  18. Wigner Eugene P., On the Behavior of Cross Sections Near Thresholds, 10.1103/physrev.73.1002
  19. Scheer Michael, Bilodeau René C., Brodie Cicely A., Haugen Harold K., Systematic study of the stable states ofC−,Si−,Ge−,andSn−via infrared laser spectroscopy, 10.1103/physreva.58.2844
  20. Takao T, Jinno S, Hanada K, Goto M, Oshikiri K, Okuno K, Tanuma H, Azuma T, Shiromaru H, Storage of negative carbon ions in an electrostatic ring, 10.1088/1742-6596/88/1/012044
  21. Felfli Z., Msezane A. Z., Sokolovski D., Resonances in low-energy electron elastic cross sections for lanthanide atoms, 10.1103/physreva.79.012714
  22. Smith Stephen J., Burch David S., Photodetachment Cross Section of the Negative Hydrogen Ion, 10.1103/physrevlett.2.165
  23. Génévriez Matthieu, Urbain Xavier, Animated-beam measurement of the photodetachment cross section ofH−, 10.1103/physreva.91.033403
  24. Venuti M, Decleva P, Convergent multichannel continuum states by a general configuration interaction expansion in a B-spline basis: application to photodetachment, 10.1088/0953-4075/30/21/020
  25. Feldmann D., Infrared photodetachment measurements near thresholds of C−, 10.1016/0009-2614(77)80032-8
  26. Seman Michael L., Branscomb Lewis M., Structure and Photodetachment Spectrum of the Atomic Carbon Negative Ion, 10.1103/physrev.125.1602
  27. Branscomb L. M., Smith S. J., Tisone G., Oxygen Metastable Atom Production Through Photodetachment, 10.1063/1.1697230
  28. Hlavenka P., Otto R., Trippel S., Mikosch J., Weidemüller M., Wester R., Absolute photodetachment cross section measurements of the O− and OH− anion, 10.1063/1.3080809
  29. Dorsch Friedhelm, Daiminger Franz X., Performance and lifetime of high-power diode lasers and diode laser systems, 10.1117/12.344546
  30. Sun Haiyin, A Practical Guide to Handling Laser Diode Beams, ISBN:9789401797825, 10.1007/978-94-017-9783-2
  31. Marshall Gerald, Stutz Glenn, Handbook of Optical and Laser Scanning, Second Edition, ISBN:9781439808795, 10.1201/b11090
  32. See for information on the optics studio design software.
  33. Wang Jingwei, Yuan Zhenbang, Kang Lijun, Yang Kai, Zhang Yanxin, Liu Xingsheng, Study of the mechanism of “smile” in high power diode laser arrays and strategies in improving near-field linearity, 10.1109/ectc.2009.5074109
  34. Kreckel H., Bruhns H., Cizek M., Glover S. C. O., Miller K. A., Urbain X., Savin D. W., Experimental Results for H2 Formation from H- and H and Implications for First Star Formation, 10.1126/science.1187191
  35. Bruhns H., Kreckel H., Miller K., Lestinsky M., Seredyuk B., Mitthumsiri W., Schmitt B. L., Schnell M., Urbain X., Rappaport M. L., Havener C. C., Savin D. W., A novel merged beams apparatus to study anion-neutral reactions, 10.1063/1.3280227
  36. Kreckel H., Bruhns H., Miller K. A., Wåhlin E., Davis A., Höckh S., Savin D. W., A simple double-focusing electrostatic ion beam deflector, 10.1063/1.3433485
  37. Simion 3D 8.0,, 2008.
  38. Brouillard F., Claeys W., On the Measurement of Ion(ATOM) - Ion(ATOM) Charge Exchange, Physics of Ion-Ion and Electron-Ion Collisions (1983) ISBN:9781461335474 p.415-459, 10.1007/978-1-4613-3545-0_10
  39. Aberth William, Peterson James R., Characteristics of a Low Energy Duoplasmatron Negative Ion Source, 10.1063/1.1720882
  40. Doucas G., Energy distribution of negative ions sputtered from caesiated surfaces, 10.1016/0020-7381(77)80106-x
  41. Doucas G. , The energy spread of some negative ions from a sputter source, 10.1051/rphysap:0197700120100146500
  42. Bruhns H., Kreckel H., Miller K. A., Urbain X., Savin D. W., Absolute energy-resolved measurements of theH−+H→H2+e−associative detachment reaction using a merged-beam apparatus, 10.1103/physreva.82.042708
  43. Miller K. A., Bruhns H., Eliášek J., Čížek M., Kreckel H., Urbain X., Savin D. W., Associative detachment of H−+ H→H2+e−, 10.1103/physreva.84.052709
  44. Miller K. A., Bruhns H., Čížek M., Eliášek J., Cabrera-Trujillo R., Kreckel H., O’Connor A. P., Urbain X., Savin D. W., Isotope effect for associative detachment:H(D)−+H(D)→H2(D2)+e−, 10.1103/physreva.86.032714
  45. von Hahn R., Berg F., Blaum K., Crespo Lopez-Urrutia J.R., Fellenberger F., Froese M., Grieser M., Krantz C., Kühnel K.-U., Lange M., Menk S., Laux F., Orlov D.A., Repnow R., Schröter C.D., Shornikov A., Sieber T., Ullrich J., Wolf A., Rappaport M., Zajfman D., The electrostatic Cryogenic Storage Ring CSR – Mechanical concept and realization, 10.1016/j.nimb.2011.04.033