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Lists of references=A05-m1e

lists per module

Complete list of references in the article

A01
A.P.M Baede, A.M.C. Moutinho, A.E. de Vries and J. Los, Chem.Phys.Lett. 3 (1969). [in A05-m2a] [link to occurrence in text]
A02
A.M.C Moutinho, A.P.M Baede and J. Los, Physica 51 (1971) [in A05-m2a] [link to occurrence in text]
A03
A.P.M. Baede and J. Los, Physica 52 (1971) 422. [in A05-m2a,3a,5bi] [link to occurrence in text][link to occurrence in text][link to occurrence in text]
A04
A.M.C. Moutinho, J.A Aten and J. Los, Physica 53 (1971). [in A05-m2a][link to occurrence in text]
A06
G.A.L. Delvigne and J. Los, to be published. [in A05-m5bi] [link to occurrence in text]
T2
A.M.C. Moutinho, Thesis, Amsterdam (1971). [in A05-m2a] [link to occurrence in text]
RfA051a
R.K.B Helbing and E.W. Rothe, J. Chem. Phys. 51 (1969) 1607. [in A05-m2a] [link to occurrence in text]
RfA051d
R.N. Compton, S.J. Nalley, H.C. Schweinler, and V.E. Anderson, VII ICPEAC, Amsterdam (1971). [in A05-m2a] [link to occurrence in text]
RfA051e
J. Weiner, W.B. Peatmann, and R.S. Berry, Phys. Rev. Lett. 25 (1970) 79. [in A05-m2a] [link to occurrence in text]
RfA051f
J.T. Moseley, W.H. Aberth, and J.R. Peterson, VII ICPEAC, Amsterdam (1971). [in A05-m2a] [link to occurrence in text]
RfA052
W.B. Person, J. Chem. Phys. 38 (1963) 109. [in A05-m3c,m5bi] [link to occurrence in text][link to occurrence in text]
RfA053
R. Düren, Private communication. [in A05-m3c,5bi] [link to occurrence in text][link to occurrence in text]
RfA054
E.S. Rittner, J. Chem. Phys. 19 (1951) 1030. [in A05-m4bii,5bi] [link to occurrence in text][link to occurrence in text]
MESO-m3a-sputt
A.M.C. Moutinho, P.G. Ikelaar, J. Los and J. Kistemaker, Nucl. Instrum. Methods 71 (1969) 56. [in A05-m3a,6b] [link to occurrence in text][link to occurrence in text] (=RfA056)
MESO-m3a-surf
J. Politiek and J. Los, Rev. Sci. Instrum. 40 (1969) 1576. [in A05-m3a] [link to occurrence in text] (=RfA057)
RfA058
F.T. Smith, R.P. Marchi and K.G. Dedrick, Phys. Rev. 150 (1966) 79. [in A05-m5bi] [link to occurrence in text]
RfA059
Handbook of Chemistry and Physics. [in A05-m5bi,ii] [link to occurrence in text][link to occurrence in text]
RfA0510
M.V. Berry, Proc. Phys. Soc. 89 (1966) 479. [in A05-m5bi] [link to occurrence in text]
RfA0511
B.S. Duchart, M.A.D. Fluendy and K.P. Lawley, VII ICPEAC, Amsterdam (1971). [in A05-m5bii] [link to occurrence in text]
RfA0512
K.W. Ford and J.A. Wheeler, Ann. Phys. 7 (1959) 259, 287. [in A05-m5aii] [link to occurrence in text]
RfA0513
R.B. Bernstein, Adv. Chem. Phys. 10 (1966) p.75. [in A05-m5a] [link to occurrence in text]
RfA0514
E. Hundhausen and H. Pauly, Z. Phys. 187 (1965) 305. [in A05-m5bi] [link to occurrence in text]
MESO-m2a
Situation [in A05-m2a] [link to occurrence in text]
MESO-m2b
Central problem (contextualized in/wider range) [in A05-m2b,6b] [link to occurrence in text][link to occurrence in text]
MESO3a-mod
Theoretical methods, atom-atom model [in A05-m2a,3c,5,5ai,5aii,5bii] [link to occurrence in text][link to occurrence in text][link to occurrence in text][link to occurrence in text][link to occurrence in text][link to occurrence in text][link to occurrence in text]
MESO3a-defl
th. meth. Deflection function (detailed in/wider range) [in A05-m4bi-iii,5a,ai,bi,bii] [link to occurrence in text][link to occurrence in text][link to occurrence in text][link to occurrence in text][link to occurrence in text][link to occurrence in text][link to occurrence in text]
MESO-m3c-treat
th. meth Data analysis and presentation technique (detail/,wider range) [in A05-m4bi-iii] [link to occurrence in text][link to occurrence in text][link to occurrence in text]
MESO-m3a-charge
exp. meth Charge transfer [in A05-m6b] (detailed in,wider range,focus)
MESO-m3a's
Other experimental methods [in A05-m3a] (detailed in/focus/wider range) [link to occurrence in text]

References per module

POSITIONING = A05-m2 [ - ]
Situation = A05-m2a
RfA051a
R.K.B Helbing and E.W. Rothe, J. Chem. Phys. 51 (1969) 1607, (external/elaborated in); [link to occurrence in text]
T2
A.M.C. Moutinho, Thesis, Amsterdam (1971), (project/elaborated in/wider range); [link to occurrence in text]
A03
A.P.M. Baede and J. Los, Physica 52 (1971) 422, (project/elaborated in); [link to occurrence in text]
RfA051d
R.N. Compton, S.J. Nalley, H.C. Schweinler, and V.E. Anderson, VII ICPEAC, Amsterdam (1971), (external/elaborated in); [link to occurrence in text]
RfA051e
J. Weiner, W.B. Peatmann, and R.S. Berry, Phys. Rev. Lett. 25 (1970) 79, (external/elaborated in); [link to occurrence in text]
RfA051f
J.T. Moseley, W.H. Aberth, and J.R. Peterson, VII ICPEAC, Amsterdam (1971), (external/elaborated in); [link to occurrence in text]
A01
A.P.M Baede, A.M.C. Moutinho, A.E. de Vries and J. Los, Chem.Phys.Lett. 3 (1969), (project/elaborated in); [link to occurrence in text]
A02
A.M.C Moutinho, A.P.M Baede and J. Los, Physica 51 (1971), (project/elaborated in); [link to occurrence in text]
A04
A.M.C. Moutinho, J.A Aten and J. Los, Physica 53 (1971), (project/elaborated in); [link to occurrence in text]
MESO-m2a
Situation, (project/elaborated in/wider range); [link to occurrence in text]
MESO-m3c-mod
Theoretical methods: Atom-atom model, (project/detailed in/focussed on in/wider range); [link to occurrence in text]
MESO-m3a
Experimental methods, (project/detailed in/focussed on in/wider range); [link to occurrence in text]
Central question = A05-m2b
MESO-m2b
Central problem, (project/elaborated in/wider range); [link to occurrence in text]
METHODS = A05-m3 [ - ]
Experimental methods = A05-m3a
MESO-m3a-sputt
= [Moutinho] A.M.C. Moutinho, P.G. Ikelaar, J. Los and J. Kistemaker, Nucl. Instrum. Methods 71 (1969) 56, (project/wider range/detailed in/focussed on in); [link to occurrence in text]
MESO-m3a-surf
= [Politiek] J. Politiek and J. Los, Rev. Sci. Instrum. 40 (1969) 1576, (project/wider range/detailed in/focussed on in); [link to occurrence in text]
MESO-m3a-Ir
Experimental method: Ir detector, (project/wider range/detailed in/focussed on in); [link to occurrence in text]
MESO-m3a-dsk
Experimental method: Slotted disk, (project/wider range/detailed in/focussed on in); [link to occurrence in text]
MESO-m3a's
Other experimental methods, (project/wider range/detailed in/focussed on in); [link to occurrence in text]
Theoretical methods = A05-m3c
RfA052
W.B. Person, J. Chem. Phys. 38 (1963) 109, (external/input from/explained in/argued in); [link to occurrence in text]
A03
A.P.M. Baede and J. Los, Physica 52 (1971) 422, (project/disagrees with/arguments found in); [link to occurrence in text]
RfA053
R. Düren, Private communication. [in A05-m3c,5b], (external/arguments found in); [link to occurrence in text]
MESO-m3c-mod
Theoretical methods: Atom-atom model (detailed in/wider range/project) [link to occurrence in text]
MESO-m3c-defl
Theoretical methods: Deflection function and differential cross section (detailed in/wider range/project) [link to occurrence in text]
RESULTS = A05-m4 [ - ]
Raw data = A05-m4a [ - ]
Treated results = A05-m4b [ - ]
Treated results = A05-m4bi1
MESO-m3c-treat
Theoretical methods: Data analysis and presentation technique, (detailed in/depends on/wider range/project); [link to occurrence in text]
MESO-m3c-defl
Theoretical methods: Deflection function and differential cross section (detailed in/explained in/wider range/project); [link to occurrence in text]
Treated results = A05-m4bi2
RfA054
E.S. Rittner, J. Chem. Phys. 19 (1951) 1030, (external/input from); [link to occurrence in text]
MESO-m3c-treat
Theoretical methods: Data analysis and presentation technique, (detailed in/depends on/wider range/project); [link to occurrence in text]
MESO-m3c-defl
Theoretical methods: Deflection function and differential cross section (detailed in/explained in/wider range/project); [link to occurrence in text]
INTERPRETATION = A05-m5
MESO3a-mod
Theoretical methods: Atom -atom model (depends on/detailed in/wider range,project); [link to occurrence in text]
Qualtitative interpretation = A05-m5a [ - ]
Qualitatief = A05-m5ai
MESO3a-mod
Theoretical methods: Atom -atom model (depends on,detailed in,wider range,project); [link to occurrence in text]
MESO3a-defl
Theoretical methods: Deflection function and differential cross section (detailed in/wider range/project), (input from/wider range/project) [link to occurrence in text]
Qualitatief = A05-m5aii
RfA0512
K.W. Ford and J.A. Wheeler, Ann. Phys. 7 (1959) 259, 287. (elaborated in/wider range/project) [link to occurrence in text]
RfA0513
R.B. Bernstein, Adv. Chem. Phys. 10 (1966) 75. (input from/elaborated in/wider range/project) [link to occurrence in text]
MESO3a-defl
Theoretical methods: Deflection function and differential cross section (detailed in/input from/project/wider range); [link to occurrence in text]
Quantitatief = A05-m5b [ - ]
Quantitatief = A05-m5bi
RfA052
W.B. Person, J. Chem. Phys. 38 (1963) 109. (agrees with/external) [link to occurrence in text]
A06
G.A.L. Delvigne and J. Los, to be published. depends on/detailed in/project; [link to occurrence in text]
A03-m4b
Baede, Los (agrees with/project;[link to occurrence in text]
RfA053
R. Düren, Private communication. (input from,external); [link to occurrence in text]
RfA054
E.S. Rittner, J. Chem. Phys. 19 (1951) 1030. (input from/external); [link to occurrence in text]
RfA059
Handbook of Chemistry and Physics. (input from/external); [link to occurrence in text]
RfA058
F.T. Smith, R.P. Marchi and K.G. Dedrick, Phys. Rev. 150 (depends on/external) [link to occurrence in text]
RfA0510
M.V. Berry, Proc. Phys. Soc. 89 (1966) 479. arguments found in/compared to/external) [link to occurrence in text]
RfA0514
E. Hundhausen and H. Pauly, Z. Phys. 187 (1965) 305. (arguments found in/compared to/external) [link to occurrence in text]
MESO3a-defl
Theoretical methods: Deflection function and differential cross section (wider range/detailed in/input from) [link to occurrence in text]
Quantitatief = A05-m5bii
RfA0511
B.S. Duchart, M.A.D. Fluendy and K.P. Lawley, VII ICPEAC, (agrees with/external); [link to occurrence in text]
RfA059
Handbook of Chemistry and Physics. (input from/external); [link to occurrence in text]
MESO3a-mod
Theoretical methods: Atom-atom model (detailed in/input from/wider range/project) [link to occurrence in text]
MESO3a-defl
Theoretical methods: Deflection function and differential cross section (detailed in/input from/wider range/project) [link to occurrence in text]
OUTCOME = A05-m6 [ - ]
Findings = A05-m6a [ - ]
Leads for further research = A05-m6b
MESO-m2b-prob
Central problem (detailed in/wider range)
Rf6
A.M.C. Moutinho, P.G. Ikelaar, J. Los and J. Kistemaker, Nucl. Instrum. Methods 71 (1969) 56. (detailed in/wider range/focus)[link to occurrence in text] (= MESO-m3a-sputt)
MESO-m3a-charge
Experimental methods: Charge transfer(detailed in/wider range/focus)