ippj・am- 30dpc.nifs.ac.jp/ippj-am/ippj-am-30.pdfi. introduction since the publication or our...
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IPPJ・AM- 3 0
CROSS SECTIONS FOR CHARGE TRANSFERS OF
HIGHLY IONIZED 10NS IN HYDROGEN ATOMS
(Up・dated version of IPPJ-AM・15 by Y. Kaneko, T. Arikawa
Y. Itikawa, T. Iwai, T. Kato, M. Matsuzawa, Y. Nakai
K. Okuno, H. Ryufuku, H. Tawara and T. Watanabe)
Hiroyuki TAWARA, Takako KATO and Yohta NAKAIl)
Institute or Plasma Physics, Nagoya University
Chikusa-ku, Nagoya 464, Japan
August 1983
Permanent address:
1) Japan Atomic Energy Research (nstitute
-
This document is prepared as a preprint of comp血tion of atomic data for fusion
research sponsored fuuy or partly by the ⅠPP/Nagoya University. This is intended for
future pubhcation in a )ournalor win be included in a data book after some evaluations
or rearrangements of its contents. This document should not be referredwithout the
agreement of the authors.Enquiries about copyright and reproduction shouid be ad・
dressed to Research Information Center, IPP/Nagoya Ur)iversity, Nagoya, Japan.
-
Abstract●
Experimental data through mid 1983 are compiled on the total cross sections
for the electron capture processes of highly ionized ions in collisionswith hydrogen
atoms. Tlle results are shown in figures as a function of the collision energy. Also are
shown the cross sections for some related processes including the electron detachment
(or stripping) and excitation. This is the first up-dated version of a previous compila-
tion published as IPPJ-AM-1 5.
-
I. INTRODUCTION
■
since the publication or our previous compilation, IPPJ-AM-151), entitled
HCross sections for charge transfer collisions involving hydrogen atoms" by Y・ Kaneko
et al.,a
series of the experiments2) have confirmed the importance of the electron
capture processes involving highly ionized impurity ions in diagnostics and evaluation
or high temperature Tokamak plasmas. In such an electron capture process or highly
ionized ions Aq+ in collisions with hydrogen atoms at low energies, the electron is
preferentially captured into the excited states of theion which is immediately decayed
into the ground state by emittinga photon in most cases; that is,
Aq'+ H + A(q-I)''(n,I) + H'
l
A(q-i)'(g.s.)十hリ
(1)
Therefわre, this process results in significant energy loss From high temperature plasmas.
Over the past year, some experimental results on the (n, 1)distribution or the electron-
captured ions in process (1 ) have been reported and round to give some detailed insight
in understanding the electron capture process or highly ionized ions.3) However, such
data are stilltoo few to compiie and evaluate.
Tn the present report are compikd the experimental data on the total cross
sections of the electron transfer processes of highly stiripped ions in collisionswith
hydrogen atoms published through mid 1983. A list or the compiled processesis given
in section II. The referencesare listed in section Ill. The compiled data for electron
capture are shown in figures (Fig. 1 through Fig. 152) in section IV in the increasing
order of the atomic number of ions (section II-I).The cross sections are preseilted in
the unit of cm2/atom andthe collision energyinkeV/amu (e.i.,the energy in the
abcissa being equivalent to the kinetic energy of atomic hydrogen). In section V are
shown the experimental results on some related processes in Fig. Al through Fig. A20,
/ノ~ノ
ー1-
-
including the electron excitation and detachment or stripping, listed in section II-2.
The present compilation is intended to be served as the first up-dated version of the
previous compilation・ IPPJ-AM-15・ New data are indicatedwith square marks in
figures・ A numericaldatabase of these compiled data is now being developed for futureP
data retrieval system.
References
1) YI Kaneko, T・ Arikawa, Y・ Itikawa, T・ Iwai, T・ Kato, M・ Matsuzawa, y. Nakai,
K・ Okuno, H・ Ryufuku7 H・ Tawara and T・ Watanabe, "PJ-AM-i5 (1980).
2) S・ Suckewer, Pbysica Scripta 23 (1981) 72
physics of Highly Ionized Atoms (NATO Advanced Course, 1982, Corsica), Ed.
R・ Marrus and J・P・ Briand, Plenum, 1983.
3) R・W・ McCuilough, M・ Lennon, F・G・ Wilkie and H・B・ Gilbody, J・ Phys. B 16
(1983)L 173.
-2-
-
ⅠⅠ.UST OF PROCESSES・ SHOWN IN FIGURES
1) Eiectron Capture
Fig. No・
2
3
4
6.
7.
8.
9.
10.
ll.
12.
H'
H+
D十
H'
lie
HR'
E'
Processes
+ H + H
+ H + H + H+
十 D-.旦
+ D'
十 D ヰ H + D+
十 H → 旦12s)十 H+
+ H ぅ 旦(2s)+ =+
+ H 一 旦(2p)十 =+
D' 十 H → 旦(2p)十 H+
4He2+ + H
3He2+十 t1
3tle2+ + H
4He2+ + H
4He+ 十 H
7Li' + H
7Li2+ + H
7Li3+ 十 H
llB+ + H
llB2十 十 H
B2+ + H
11B3'+ H
B3+ + H
13. B4+ + H
14. BS+ + H
llB5+ + H
15. C+ + H
→ He+
.I. He'
. He'(2s)
→ He+(2s)
⇒ He
ヰ Li
→ Li+
ヰ Li2+
ヰ B
ヰ B'
→ B+
ヰ B2+
ヰ B2+
ヰ B3十
~.> B4+
→ B4+
→ cO
-3-
References
2,34,36,37
29,30,38,42, 73,76
38
73
23, 42,43,45, 47
23
33,43,45
45
4,76
2,6,ll,12
ll
4
6,76
10
10,72
10,72
26
26, 54
16, 25
26
16, 54
16, 26,54
16
26■
13, 18,26
-
Fig. No. processes
16. C2+ + H
17. C3+ + H
18. C小 十 H
F19.C5+ + H
20. C6+ + H
21. N十 十 H
22. N2+ 十 H
23. N3+ 十 H
24. N4+ + H
25. N5十 + H
26. N6+ + H
27. N7+ + H
28. 0+ + H
29. 02+ + H
30. 03十 + H
31. 04+. + H
32. 05+ 十 H
33. 06+ + H
34. 07+ + H
35. 08+ 十 H
36. Ne2十 十 H
37. Ne3+ 十 H
38. Ne4+ 十 H
39. Ne5十 + H
40. Ne8+ + H
41. Ne9+ + H
42. NelO+ + H
43. Na2+ + H
+ c'
ヰ C2+
→ c3+
→ c4十
→ c5十
→ NO
→ N+
→ N2+
→ N3+
→ N4+
→ N5十
-+ N6'
→ oO
ヰ 0+
→ o2十
ヰ 03+
・十 04十
→ o5+
→ o`+
→ o7+
ヰ Ne+
→ Ne2+
→ Ne3+
+ Ne4'
→ Ne7+
→ Ne8+
ヰ Ne9十
⇒ Nal●
-4-
References
9, 13,26,54
13, 16,26,54,74
13, 16,26,54,74,82
26, 74, 82
26, 74, 82
1,13,18
13,54,72,79
13, 16,54,72,79
13, 16,54,72
13,54,72,82
82
26, 82
1,2,13
13,54,74
13, 17,54,74
王3, 17,54,74
13, 16,17,54,74
16, 17,74,82
17, 82
17,82
65
65,72
65, 72
72
82
82
82
79
-
Fig. No.
44.
45.
46
47.
48.
49.
50.
51.
52.
53.
54.
55.
56.
57.
58.
59.
60.
61.
62.
63.
64.
65.
66.
67.
68.
69.
70.
71.
Processes
Na3+ + H
Naヰ+ 十 H
Mg2+ + H
si2+・ + H
sis+ 十 H
siヰ+ 十 H
sis+ 十 H
si6+ + H
si7十 十 H
■lI
sioー一 十 H
si9十 十 H
Arュ+ 十 H
Ar3十 + H
Ar4十 十 H
Ar5十 + H
Ar6+ + H
Ar7十 + H
Ar8+ 十 H
Ar9+ + H
Tiュ+ 十 H
Fe3+ + H
F㌔十 十 H
Fe5+ 十 H
Fe6+ + H
Fe7+ + H
Fet8+ + H
Fe9+ 十 H
FelO+ 十 H
ヰ Na2+I
ヰ Na3+
+ Mg+
→ si+
⇒ si2+
ヰ Si3+
ヰ Si4+
→ si5+
+ si6+
→ si7十
⇒ si8+
→ Ar十
ヰ Ar2+
ヰ Ar3+
一 Ar4+
ヰ Ar5+
+ Ar6+
ヰ Ar7+
十 Ar8+
→ Ti+
⇒ Fe2+
+ Fe3+
ヰ Fe4十
⇒ Fe5十
ヰ Fe6十
ヰ Fe7+
ヰ Fe8+
→ Fe9+
References
79
79
25
14
14
14,17
14,17
14, 17
14,Ⅰ7
17
17
50, 65,79
50, 65,79
50, 65,79
50
50,65,79
50, 79
50
50
25
81
5,17,81
5, 17,50,81
5,17,50,81
5,17,81
5, 17,8.1
5,17,81
5,17,8l
-5-
-
Fig. No.
72.
73.
74.
r
75.
76.
77.
78.
79.
80.
81.
82.
83.
84.
85.
86.
87.
88.
89.
90.
91.
92.
93.
94.
95.
96.
97.
98.
99.
Processes
Fell+ 十 H
Fe12+ 十 日
Fe13十 十 H
Fe14+ + H
Fe15+ 十 H
z㌔+ 十 H
Kr2' + H
.■ヽ
Kr3' + H
Kr4' + H
Kr5' + H
Kr6' + H
Mo4' + H
Mos+ + H
Mo6+ + H
Moワ+ + H
Mo8+ + H
Mo9' + H
MolO++ H
Moll'+ H
Mo12十+ H
Mo13++ H
Mo14'+ H
Mo15+十 H
Mo16'+ H
Mo17++ H
Mo18'+ H
cd2+ + H
xe2十 十 日
ヰ FelO+
→ Fell+
+ Fe12+
+ Fe13+
ヰ Fe14十
→ zn十
+ Kr'
ヰ Kr2+
+ Kr3+
. Kr4'
+ Kr5'
→ Mo3+
→ Mo4'
→ Mo5十
ヰ Mo6+
→ Mo7+
→ Mo8十
→ Mo9+
+ MolO'
ヰ Moll+
+ Mo12'
ヰ Mo13+
ヰ Mo14十
ヰ Mo15+
+ Mo16+
→ Mo17+
→ cd+
+ xe'
References
5,17,81
5, 17,81
5,17,81
17,81
17
25
25, 78
78
78
78
78
17
17
17
17
17
17
17
17
17
17
17
17
17
17
17
25
■
50
-6-
-
Fig. No.
100.
101.
102.
103.
104.
105.
106.
107.
108.
109.
110.
111.
112.
113.
114.
115.
116.
117.
118.
119.
lュo.
121.
122.
123.
124.
125.
126.
127.
Prqcesses
x㌔+ + H→ Xe?+
Ⅹ㌔十十 H→ Xe3十
Ⅹ㌔++ H → X㌔+
xe6+ 十 Il -+ Ⅹe5+
xe7+ + H . Xe6+
xe8' + H . Xe7'
xe9' + H + Xe8'
xelO+ 十 H → X㌔+
xell十 十 H → XelO+
xe12+ + H → Xell+
Ba2+ + H → B√
T㌔+十 H → Ta2+
Ta4+ + H -+ Ta3+
T㌔十 十 H→
T㌔+
T㌔十十 H .. Ta5+
Ta7' + H -, Ta6'
Ta8十 十 H → Ta7+
Ta9+ + H → Ta8+
Tal°+ 十 H ヰ Ta9十
Tall+ + H ヰ TalO十
Talュ+ + H → Tall十
Ta13十 十 H → Ta12+
Ta14十 十 H ・◆ Ta13十
Ta15' + H + Ta14'
Ta16+ + H . Ta15+
Ta17' + H .-, Ta16'
Talる+ 十 H -ナ Ta17+
Ta19+ + H + Ta18+
References
50
50
50
50
50
50
50
50
50
50
25
17
17
17
17
17
17
17
17
17
17
17
17
17
17
17
17
17
-7-
-
Pro cesses
w4+ + H . W3+
w5+ + H + W4+
w6+ + H + W5+
w7+ + H + W6+
w8+ + H + W7+
w9+ + H → W8十
wlO' + H + W9+
wll' + H + WIO'
w12+ + H . Wll+
w13+ + H . W12+
w14+ 十 H → W13十
w15+ + H . W14+
Au5十 十 H → A㌔+
Au6+ + H -> Au5+
Au7+ + H -+ Au6+
Au8+ + H + Au7+
Au9+ + H + Au8+
At110+ 十 H
Aull+ + H
Au12+ + H
Au13+ + H
An14十十Ⅰi
Au15+ 十 H
Au16+十 tiT
T12' + H
ヰ Au9+
一 AulO+
ヰ Aull十
ヰ Au12+
ヰ Au13十
→ Au14+
ヰ Au15+
ヰ Tl+
r8-
-
2) Related Processes
Fig. No・
Al.
A2.
A3.
A4.
A5.
A'
D+
ii+
E'
_R'H'
H'
Pro cesses
+ H
十 H
+ H
+ H
H +
A8. ロー 十
班
H
H
H
H
旦(1s)+ H(1s)
A9. H + Hヰ
AIO.
Alュ
A13
H
E一
月二
E-
4He+
+ H +
+ H
4He'+
3He+ +
A16.4He +
A17.4He- +
A18. C十+
A19. C2++
A20. C3+ 十
H+
旦T
A+
H'
班+
H十
A'
H'
A(
→ 旦(2s)
旦(2p)
H~ 1
H
References
H (2p) 33,43, 45
H (2p) 45
班 (2s) 43, 47
H (n=2) 52
H (n=3) 52
H (n=4) 52
H' + e 30,32,46,68
39,40,77
44
24
44
H ヰ H + H
H → H+
H + He2+
≡コ He' +
H . He'(2s)
H - He+
H ヰ He
H + C2+
H → C3+
班 ・→ Cヰ+
H (2p)
-9-
40
48, 77
31
48
8,77
27
ll
77
77
26
26
26
-
ⅠⅠⅠ.REFERENCES
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J. Chem. Phys. 33, 1226 (1960)
charge transfer between atomic hydrogen and N+ and 0+I
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Charge transfer in collisions involving symmetric and asymmetric reso-
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3. M.B.SbahandH.B. Gilbody,
J. Phys. B7, 630(1974)
charge transfer in He2+ - H collisionsin the energy range 6
- 60 keV・
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Electron transfer in keV energy4He2+
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J.Phys. B ll,L181 (1978)
Electron capture by C2十and Ti2+・
10nS in H and R2.
-10-
-
10. M.B. Shah,T.V. Goffe andH.B. Gilbody,
J.Phys.Bll,L233(1978)一
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J.Phys. B ll, 1457(1978)
Electron capture by He2+・
10nS in collisions with H and H2 at impact
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Phys. Rev. A 17, 534(1978)
Single electron capture by multiply chargedions or carbon, nitrogen and
oxygen in atomic and molecular hydrogen.
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Phys. Rev. A 17, 854(1978)
single electron capture by mu一tiply charged Si28 ions in atomic and
molecular hydrogen.
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capture cross sections.
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Phys. Rev. A 19, 504 (1979)
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hydrogen.
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Phys. Rev. A 19, 515(1979)
Single-electron-capture cross sections fわrmultiply charged 0, Fe, Mo, Ta,
W, and Au ions incident on H and H2 at intermediate velocities.
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J.Phys. B 12, L157(1979)
Electron capture by 0.I-13 keV C+, N+ and 0+ ions in H and H2・
-ll-
-
19. W.L. Nutt, R.W. McCulloughand H.B. Gilbody,
Abstract or XI-ICPEAC, p. 590 (1979)
One electron capture by low energy doubly charged ions in H and H2.
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Abstract or XI-ICPEAC, p. 592 (1979)
One electron capture and loss by fast multiply charged boron and carbon
ionsin Hand H2.
21. A. Andersen alldP. Hvelplund,
Abstract of XI-王CPEAC, p. 586 (1979)
Electron capture by fast He++ ions in atomic and molecular hydrogen・
22. J. Geddes,J. Hill, M.B. Shah, T.V. Goffe and H.B. Gilbody,
Abstract or XI-ICPEAC, p. 610 (1979)
Electron detachment by H ions in H and H2.
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J.Phys. B 12, L341 (1979)
Improved measurements of cross sections for H(2s) formation in electron
capture by l・5-25 keV protons in H and H'2・
24. ∫.Hill,∫. GeddesandH.B. Gilbody,
J. PIlyS. B 12, 2875 (1979).
1s-2s excitation of fast hydrogen atoms in collisions with atomic and
molecular hydrogen.
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J.Phys. B 12,4159(1979)
One electron capture by slow doubly charged ionsin H and H2.
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J. Phys. B 12, 3763 (1979)
One electron capture and loss by fast multiply charged boron and carbon
ionsin H and H2.
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Phys. Rev. 171, 85 (1968)
LymanQ Production and polarization in He+ collisionswith H and H2・
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ⅩⅠ-1CPEAC, 586 (1979)
Electron capture by fast He++ ions in atomic and molecular hydrogen・
-12-
-
29. W.L. Fife, 氏.T. Brackmann and W.M.氏. Snow,
●
Phys. Rev. 112, 1161 (19j8)
Charge exchange in proton-hydrogen atom collisions.
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Phys Rev. 119, 663 (1960)
Ionization and charge transfer in proton-hydrogen atom collisions.
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Phys. Rev. 119, 668 (1960)
Charge transfer and electron production in H + H collisions.
32. H.B. Gilbody andJ.V. ireland,
Proc. Roy. Soc. A 227, 137 (1963)
Ionization of atomic hydrogen by protons in the energy range 60 to
400keV.
33. R.F. Stebbings, 氏.A. Young, C.L. Oxley and H. Everhardt,
Phys. Rev. 138, A1312 (1965)
Lyman-alpha production in H十- H (1s) collisions.
34. A.a. Wittkower, G. Ryding and 班.B. Giibody,
Proc. Phys. Soc. 89, 541 (1966)
An experimental study or charge transfer in proton-atomic hydrogen
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Proc. Phys. Soc. 89, 547 (1966)
A study or Lyman-α emission in charge transfer collisions involving
40-200 keV protons.
36. H.B.GilbodyandG. Ryding,
Proc. Roy. Soc. A 291, 438 (1966)
An experimental study of charge transfer in proton-atomic hydrogen
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37. G.W.McClure,
Phys. Rev. 148, 47 (1966)
Electron transfer in protoll-hydrogen atom collisions: 2-1 i7 keV.
38. V.A. Belyaev, B.CT. Brezhnev and E.M. Erastov,
Soviet Phys.-JETP
25, 777 (1967)
Resonance charge exchange or protons and deuteron at low energies.
-13-
I,
-
39. A.B. Wittkower, G. Levy and H.B. Gilbody,
Proc. Phys. Soc. 91, 306 (1967)
An experimental study of electron loss during the passage of fast hydro-
gen atoms tbro1増血atomic hydrogen.
40. G.W.McClure,
Phys. Rev. 166, 22 (1968)
lonization and electron transfer in collisions of two H atoms: 1.25-I i7 keV.
41. ∫.E.Bayfield,
Pわys. Rev. Letters 20, 1223 (1968)
Electron capture into the metastable 2s state in collisions or protons with
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42. J.E. Bay field,
Phys. Rev. 185, 105 (1969)
Measurement of the total cross section for charge transfer into the meta-
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J.Phys. B6, 2118(1973)
Fomat二on or 班(2p) and H(2s) atoms in collisions or 2-26 keV protons
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~J.Pbys. B 7, 142(1974)
Excitation or the 2s and 2p states or hydrogen in fast collisions between
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Phys. Rev. A 10, 1167 (1974)
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Phys. Rev. A 15, 508 (1977)
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Phys. Rev. A 16, 933 (1977)
Cross section for the metastable H(2s) state in proton collisions with
atomic hydrogen.
-14-
-
48. J. Geddes, J. Hi.1l,M.B. Shah, T.V. Goffe and H.B. Gilbody,
J.Phys. B 13,319(1980)I
Electron loss by 1-300 keV a ions in H and H2.
49. ∫.T.Park:∫.E. Aldag, ∫.L. Peacber and ∫.M. George,
Phys. Rev. A 21, 751 (1980)
Angular differential cross sections for excitation of atomic hydrogen to
the n=2 level by proton impact.
50. D.H. Cralldall, 氏.A. Pbaneurand W. Meyer,
Phys. Rev. A 22, 379 (1980)
Electron capture by heavy muiticharged ions from atomic hydrogen at
low velocities.
51. ∫.T.Park,∫.E. Aldagand ∫.M. George,
Pbys. Rev. Letters 34, 1253 (1975)
Excitation of atomic hydrogen to the n=2 states by 15-200 keV protons.
52. ∫.T.Park,∫.E. Aldag, ∫.M. George and ∫.L.Peacber,
Phys. Rev. A 14, 608 (1976)
Cross sections fわr excitation or atomic hydrogen to the n=2, 3 and 4
states by 15-200 keV protons.1
53. ∫.T.Park, ∫.E. Aldag, ∫.L.Peacher and ∫.M.George,
Phys. Rev. Letters 40, 1646 (1978)
Angular differential cross sections for excitation of atomic hydrogen by
25-, 50- and 100 keV protons.
54. L.D. Gardner, J.E. Bay field, P.M. Koch, LA. Sellin, D.J. Pegg, R.S. Peterson and
D.H. Crandall,
Pbys. Rev. A21, 1397 (1980)
Electron collisions at keV eJT.ergleS Of boron and other multiply charged
ions with atoms and molecules. ⅠⅠ.Atomic hydrogen.
55. P.M.KochandJ.E. Bayfield,
Phys. Rev. Letters 34, 448 (1975)
Electron loss in low el、ergy H十- H (high ∩)merged beam collisions.
56. M. Burniaux, F. Brouillard, A. Jognaux, T.R. Covers and S. Szucs,
J.Phys. B 10, 2421 (1977)
Merged-beams study of the charge exchange between He2+ ions and highly
excited hydrogen atoms.
-15-
-
57. I H.I. Kin andF.W.Meyer,
PllyS. Rev. Letters 44, 1047 (1980)
Electron loss from highly excited states of HO in collisions with N3+.
58. W.E. Kauppila, P.J.0. Teubner, W.L. Fite and R.J. Girnius,
Phys. Rev. A2, 1759 (1970)
Polarization of Lyman-a radiation produced by・direct
excitation of hydro-
gen atoms by proton impact.
59. J.Ch. Houver, J. Fayeton, M. Abignoli and M. Barat,
Pbys. Rev. Letters 28, 1433 (1972)
Measurement of the differentialcross section for H(n=2) direct excitation
in H'勺n-H collisions.
60. ∫.C.Houver,∫. Fayeton and M. Barat,
J.Pbys. B7, 1358(1974)
Elastic and inelastic differential measurements for H'on H collisions in
tbe 250 eV-2000 eV energy range.
61. W.C. Keever, G.∫. Lockwood,H.F. Helbig and E. Everhart,
Phys. Rev. 166, 68 (1968)
Measurements of close encounters in H・on-H, H-on-H2 and H -on-H
collisions.
62. G.∫. Lockwood and E. Everhart,
Phys. Rev. 125, 567 (1962)
Resonant electron capture in violent proton-hydrogen atom collisions.
63. J.E. Bayfield, G.A. Khayrallah and P.M. Koch,
Pbys. Rev. A 9, 209 (1974)
Production of fast highly excited atoms in proton collisions with atomic
bydrogen and argon.
64. T.∫.Morgan,∫. Stone and R・ Mayo,
Phys. Rev. A 22, 1460 (1980)
H(2s) formation in H'- H and H-H collisions.
65. B.A.Huber,
Z. Phys. A 299, 307 ('1981)
Electron capture by slow multiply charge Ar and Ne ions from atomic
hydrogen.
-16-
-
66. J.E. Aldag, J.L. Peacher, P.J. Martin, V. Sutcliffe, J. George, E. Redd, T.J.
Kvale, D.M. Blankenship and J.T. Park,/.
Phys. Rev.A 23, 1062 (1981)
Angular differential and total cross sections for the excitation of atomic
bydrogen to n=2 state by helium ions.
67. P.J. Martin, D.M. Blankenship, T.I. Kvale, E. Redd, J.L. Peacher and J.T. Park,
Phys. Rev.A 23, 3357 (1981)
Electron capture at very small scattering angles from atomic hydrogen by
25-125 keV protons.
68. M.B. ShahandH.B. Gilbody,
J.Phys.B 14, 2361 (1981)
Experimental study of the ionization of atomic hydrogen by fast H+ and
He2+ions.
69. M.B.Sbaband H.B.Gilbody,
J.Phys. B 14, 2831 (1981)
Experimental study of the ionization of atomic hydrogen by fast multiply
cbarged ions or carbon, nitrogen and oxygen.
70. R.A.Pbaneur,
Phys. Rev.A24, 1138(1981)
Electron capttlre in very slow Cq+十= collisions・
71. W. Seim,A. MullerandE. Salzborn,
Phys. Letters 80 A, 20 (1980)
Electron capture from atomic hydrogen by slow fully strippedlithium
lOnS.
72. W. Seim, A. Muller, Ⅰ.Wirkner-Bott and E. Salzborn,
J.Phys. B 14,3475(1981)
Electron capture byLii+ (i=2, 3), Ni+ and Nei+ (i=2, 3,4, 5) ions from
atomic hydrogen.
73. J.H. Newman, J.D. Cogan, D.L. Ziegler, D.E. Nitz, R.D. Rundel, K.A. Smith and
R.ど. Stebbings,
Phys. Rev. A 25, 2976 (1982)
charge transfer in H+ - H and H+- D collisions within the energy range
O.1 - !50eV.
74. 良.A. Phaneur, Ⅰ.Alvarez, F.W. Meyer and D.H. Crandall,
Phys. Rev. A 26, 1892 (1982)
-17-
-
Electron capture in low-energy collisions of Cq+ and Oq+ with Hand H2・
75. H. Knudsen, H.K. Haugen and P. Hvelplund,
Phys. Rev. A 24, 2287 (1981)
Single electron capture by highly charged ions collidingwith atomic and
molecular hydrogen.
76. P. Hvelplu由I and A. Andersen,
Phys. Scri. 26, 375 (1982)
Electron capture by fast H+, He+ and He++・
10nS in collisions with atomic
and molecular hydrogen.
77. P. Hvelplund and A. Andersen,
Phys. Scri. 26, 370 (1982)
Electron loss by fast He', H, He, H and He projectiles in collisions with
atomic and molecular hydrogen.
78. B.A. Huber, A. Bumbel and K. Wiesemann,
J.Phys.E 16, 145 (1983)
A high-density effusive target of atomic hydrogen.
79. B.A. Huberand HJ. Kahlert,
SFB 82-05-104 (1982)
Totalcross sections for electron capture by multiply charged ions in H,
H2 and He.
80. J. Geddes,J. HillandH.B. Gilbody,
J. Pbys. B 14, 4837 (1981)
Fomation of excited hydrogen atoms in electron detachment collisions
by3 - 25keVH ions.
81. R.A.Pbaneuf,
Phys. Rev. A (1983) (to be published)
Electron capture by slow Feq+ ions from hydrogen atoms and molecules・
82. M.N. Panov, A.A. Basalaevand K.0. Lozhkin,
Phys. Scri. T3, 124 (1983)
Ⅰnteraction or ful一ystripped, hydrogenlike and heliumlike C, N, 0, Ne and
Ar ions withH and He atoms and H2 molecules.
83. R.W. McCullough, M.Lennon, F.G. Wilkie and H.B. Gilbody.
J.Phys. B 16,L173 (1983)
state-selective electron capture by N2+・
10nS in atomic hydrogen using
collision spectroscopy.
-18-
-
84. D. Fussen, W. Claeys, A・ Cornet, J・ Jureta and P・ Defrance,
J.Phys.B 15,L715(1983)'
,
Absolute total cross section measurement Orion pair production in
H( Is)-班(2s)collisions・
85. H.∫.KimandF.W.Meyer,
Phys. Rev. A26, 1310 (1982)
Electron ,emoval f,omHO (n) in fast collisions with multiply charged ions・
-19-
-
IV. FIGURES OF CROSS SECTIONS FOR Aq+ + HヰA(q-1)+十H+ COLLISIONS
-20-
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F7g・81 Kr5'+H-Kr4'
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ProJ-ectile Energy (eV/QmU)
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ProJ'ectile Energy (eV/clmu)
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① Meyer et cl (1979)
100I0~79
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Project了1e Energy (eV/Qmu)
Fig,87 Mo8+l H-MoT+
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ProjectぎIe Energy (eV/omu)
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Fig.115 TQT'+H・TQ8'
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101 102 103 101 105
ProJ'ect7[e Energy (eV/omu)
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Fig.127 TQH'+H- TcT8'
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Fig.133 W9'+H-W8+
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100 701 102 103 101 105
ProJ'ectile Energy (eV/c)mu)
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ProJ'ect7[e Energy (eV/omu)
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100 101 102 103 101 105
Projecti[e Energy (eV/QmU)
-89-
10B TOT
-
F・7g・138 W14'+H-Wu'
①
① Mey8r et Of (1979)
100I 0-19
10~柑
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TO7 702 103 701 10S
ProjecいIe Energy (eV/□mu)
F7gf139 WT5'+H-W14'
706 10T
① Meyer et c[I (1979)
TOI 702 703 701 105
Project7[e Energy (eV/QmU)
-90-
100 708 川7
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Fig.140. Au5'+H - Au4'
① Meyer et c)( (197g)
10-19
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Projectile Energy (eV/qmu)
Fig.141 Au6'+H-Au5'
108 TOT100
①
① Meyer8t qI (197g)
lot lO2 103 101 105
Projectile Energy (eV/qmu)
-91-
川○10-19
108 TOT
-
Fig.142 Au''+H-Au6'
0 Meyer et81 【1979)
107 102 103 fOl 105
ProJ'ectHe Energy (eV/c[mu)
F7g.143 Au8++H-Au''
108 TOT100
① Mey匂r et Cl (1979)
10f 702 103 101 105
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-92-
10¢ 108 10T
10~19
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①
① Meyer et oI (1979)
101 102 103 104 10S
Proje.ct7le Energy (eV/QmU)
Fig1145 Au10'+H-Au9'
108 70T100
①
① Meyer et cl (1979)
]o-19
]o-19100 101 102 10】 101 105 108 107
ProjectHe Energy (eV/omu)
-93-
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F盲g.146 Aull'+H-AuH'
① Meyar et Ql (1979)
10010-]g
10119
101 10Z IO3 104 105
Project7le Energy (eV/qmu)
Fig.147 Au12'+H-Au‖+
108 10丁
① Meyer et cf (1979)
100 101 10之 103 701 105
ProJ-ect7le Energy (eV/QmU)
-94-
108 70T
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Fig.148.・Au.3'+ H - Au12'
①
① Meyer et cI (1979)
101 102 103 101 105
Projectile Energy (eV/cmu)
Fig.149 AuT4'+H-Au13'
108 10丁一oo
①
O Mey8r Ct Ct (197g)
10t lO2 103 101 105
ProJ'ectile Energy (eV/□mu)
-95-
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Fig.151 Au18++H-Au15'
108 10丁100
① Meyer et c[l (1979)
101 10之 103 101 105
Project7le Energy (eV/c7mU)
-96-
10¢I0~1℡
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100 101 102 10) 701 105 106 70T
ProJ'ect7Ie Energy (eV/omu)
-97-
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Ⅴ. FIGURES OF CROSS SECTIONS FOR RELATED PROCESSES
-98-
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竪一.・i盃冠
101 102 103 101 105 108 70T
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F7g.A2 H'+ H ~ H'+ H(2s)
一oo
101 102 103 101 105
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-99-
100
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Fig.A4 日++ H ・ H'+ H(n=3)
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