Mtlonal Bureau of Standanis HiL^ 1969 I N8S Publh cations Reference book not to b taken from the IMry. tibliography on The Analyses of Optical Atomic Spectra Section 3 ^^Mo-^^La ^^Hf-^^Ac United States Department of Commerce National Bureau of Standards Special Publication 306 — 3
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Mtlonal Bureau of Standanis
HiL^ 1969
I
N8SPublhcations
Reference book not to btaken from the IMry.
tibliography
on
The Analyses of Optical Atomic Spectra
Section 3
^^Mo-^^La
^^Hf-^^Ac
United States Department of Commerce
National Bureau of Standards
Special Publication 306—
3
UNITED STATES DEPARTMENT OF COMMERCEMaurice H. Stans, Secretary
NATIONAL BUREAU OF STANDARDS • A. V. Astin, Director
For sale by the Superintendent of Documents, U.S. Government Printing Office
Washington, D.C. 20402 - Price 5,0 cents
NATIONAL BUREAU OF STANfiARM ^:
Abstract
The three published volumes on "Atomic Energy Levels", NBS Circ. 467, containfor each spectrum the bibliography that was used in compiling the data. The present workis a continuation of these bibliographies arranged in the same form. The time interval is thespan from the respective dates of the earlier publications to the present. The selection of
references is restricted to those needed for the preparation of revised tables of atomic energylevels and multiplets.
The bibliography is being published by Sections, each of which covers the same elementsas the respective volumes of AEL. Section 1 was issued in September 1968; it containsreferences for the elements 'H through ^^V, corresponding to AEL Volume L Section 2appeared in February 1969; as in AEL Volume IL the references cover the elements ^'Crthrough ^'Nb.
The present Section is similarly arranged, giving references to the spectra of theelements, Mo through ^'La and '^jjf through ^"Ac, similar to AEL Volume III. For agiven element the spectra are listed in order of increasing stage of ionization.
The original papers have been examined for nearly all of the quoted references.
Key Words: Spectra, Atomic; Analyses of Atomic Spectra; Elements, Spectra of Mothrough La, Hf through Ac; Bibliography, Atomic Spectra; AtomicSpectra, Mo through La, Hf through Ac; References to Atomic Spectra.
f
Library of Congress Catalog Card Number: 68-62107
Index to Spectra
Element z Spectrum fage iiilement Zi Spectrum Page
Molybdenum 42 Mo I 1 Tellurium 52 Te I 12Mo II 1 Te II 13Mo III 1 Te III 13Mo IV 1 Te IV 13Mo V 2 le V 13MnIVJ-
u
VI 2 To1 e \7TVI 13Mo \ rTTVll 2i\/r,->ivio VIII
oIodine 53 I I 14
iVlO TV 2 I II 14Mn Y 2Mn YT 2 Xenon 54 Xe I 15MnXVIu YVTA. V 1
oXe II 17
i CXe III 17
Technetium 43 I 3 Xe IV 18Tp1 c TT
11 3 Xe V 18ITT111 3 Xe VI 18
Ae VII 18Ruthenium 44 PnrvU T
1 4 Ae A7TTTVlll 18xvu TT
11 4 TYlA 19XVU TIT111 4
Cesium 55 Cs I 19Rhodium 45 Kn I 4 II 20
xvn TT11 5
XVll TTT111 5 Barium 56 Ba I 21Ba II 21
Palladium 46 I 5 rSa III 21II 6 rSa TT7IV 21
Pd III 6
rd XX 6 Lanthanum 57 La I 21La II 22
Silver 47 Ag I 6 La III 22Ag II 6AAg III 7Ag XXI 7
Hafnium 72 HI T1 23
Cadmium 48 Cd I 7 Hf TT11 23
Cd II 8 Hfill ITT111 23
Cd III 9 Hf111 TV1
V
24
XXII 9Tantalum 73 1 a T
1 24
Indium 49TIn I 9 Ta1 ct
TT11 24
In II 10 1 a,TTT111 24
In XXIII 10Tungsten 74 wvv 11 25
Tin 50 Sn 1 10 wVV TT11 25
on TT11 11 w LXV OCT
Sn IV 11
Sn XXIV 11 Rhenmm 75 Re I 25Re II 26
Antimony 51 Sb I 12
Sb II 12 Osmium 76 Os I 26Sb XXV 12 Os II 27
III
Index to Spectra—Continued
Element Z Spectrum Page Element z Spectrum Page
Iridium 77 Ir I 27 Bismuth 83 Bi I 35Ir II 27 Bi II 36
Platinum 78 rt I 27 Polonium 84 Fo I 36Po II 36
Gold 79 Au I 28AAu II 28 Astatine 85 At I 36AAu III 28
Radium 88 Ra I 37Mercury 80 Hg I 29
Hg II 32 Actinium 89 Ac I 37TTHg III 32 AAc II 37
Ac in 37Thallium 81
miTl I 33
AAc IV 371
1
II 34Tl IV 34
Lead 82 Pb I 34Pb II 35Pb III 35Pb IV 35
IV
Bibliography
onThe Analyses of Optical Atomic Spectra
Charlotte E. Moore
The present bibliography is a continuation of
the series of which two Sections have beenpublished; the first in September 1968 and thesecond in February 1969 [1].' Selected references
are listed to meet a steady demand for data onatomic spectra. No attempt has been made to
give complete reference lists on atomic spectraincluding numerous specialized subjects. Thoselisted have been chosen for individual spectra onthe same basis of selection as was used for theVolumes on "Atomic Energy Levels" [2]. Theyare references that deal with the outer structureof atoms as revealed by their optical spectra.
They cover the time interval between the publi-
cation of the respective Volumes of "AtomicEnergy Levels" and the present time.
Section 1 [1] deals with the elements throughW from 1949 to the middle of 1968. Earlierreferences were given in "Atomic Energy Levels"Volume L Section 2 [1] covers the elements ^''Cr
through ^'Nb, corresponding to AEL Volume II,
which was issued in 1952. The present Sectioncontains references to the elements *^Mo through"La and '^Hf through *'Ac, i.e., similar to thosein AEL Volume III, issued in 1958.
This publication will conclude with Section 4which will deal with rare-earth spectra, and thuscomplete the elements in the Periodic Table. The"Atomic Energy Levels" for rare-earth spectrascheduled to comprise Volume IV of the AELset, are not yet compiled. This Volume has beendelayed because many of the very complexspectra to be included are at present under activeinvestigation. Meanwhile, it is felt that a bibli-
ography on rare-earth spectra may help to meetpresent needs.
Figures in brackets indicate the literature references on page iv.
As in the preceding Sections the content of
individual papers is briefly described by keyletters or words. The letters have the following
meanings:C L Classified lines
E D Energy level diagramG D Grotrian diagramI P Ionization potential
I S Isotope shift
T Terms (and/or energy levels)
WL WavelengthZ E Zeeman effect
[ ]Forbidden transitions
hfs Hyperfine structure
Osc. Str. Oscillator strengthX Correction connecting sets of
terms of different multi-
plicities
The letters "A" and "L" entered in paren-theses before the date of the reference denoterespectively, that the paper is an Abstract or aLetter to the Editor.
In general, the references have been selected
as those needed to revise and extend the author's
Tables of Atomic Energy Levels [2] and Multi-plets [3, 4, 5]. They refer mostly to laboratoryobservations and analyses. There are a few special
cases where forbidden lines observed in coronal
or nebular spectra provide reliable information
on intervals of ground terms of selected spectra.
Similarly, some papers on theoretical work are
also extremely useful. Such references are included.
A limited number of scattered references onrelated topics such as hyperfine structure, StarkEffect, Isotope Shift, etc., are also included, butno effort has been made to cover these related
subjects completely.
V
In tabulating the references for a given spectrumthe overall plan has been to arrange them in alpha-
betical order by author and by year, starting withthe earlier papers. Owing to the use of the photo-graphic method for publication, this order hasnot been followed strictly. If excellent reference
material became available after the final typinghad been completed, additional references wereinserted under the proper spectra where spacepermitted. This has introduced some irregularities
in arrangement, but it has also made the bibliog-
raphy more useful.
Nearly all of the references quoted here havebeen examined by the author. Only a few whichwere not available have been copied on the basis
of abstracts found in the literature.
The author is grateful to all who have generouslycontributed material for inclusion here. Some havemade special effort to furnish current references
and reprints, and to outline programs in progressin various laboratories. She appreciates the useful
additions to the bibliography kindly furnished byL. Minnhagen. Special thanks are also dueIsabel D. Murray for her meticulous care in
preparing the press copy of the manuscript.
References
[1] C. E. Moore, Nut. Bur. Stand. Special Publ. 306Section 1, 80 pp. (1968); Section 2, 57 pp. (1969).
[2] C. E. Moore, Nat. Bur. Stand. Circ. 467, Vol. I, 309 on(1949); Vol. II, 227 pp. (1952); Vol. Ill, 245 pp.'
( 1 958)
.
[3] C. E. Moore, Nat. Bur. Stand. Circ. 488, Section 1,78 pp. (1950); Section 2, 115 pp. (1952); Section 3,94 pp. (1962) ; Section 4, 65 pp. (1962) ; Section 5,30 pp. (1962).
[4] C. E. Moore, Reprinting of 1945 Princeton MnltipletTable, Nat. Bur. Stand. Tech. Note 36 (PB 151395),245 pp. (1959).
[5] C. E. Moore, Nat. Stand. Ref. Data Series, Nat. Bur.Stand. NSRDS-NBS 3, Section 1 (1965); Section 2(1967).
Washington, D.C.January 21, 1969.
General References
A. P. Striganov and U. P. Dontsov, Uspekhi Fiz. Nauk 55, 315 to 390 (1955). I S
R. E. Trees, Phys. Rev. 123, 1293 to 1300 (1961) . .Theory;"Repulsion of Energy Levels" in Complex Atomic Spectra.
R. D. Cowan, J. Opt. Soc. Am. 58, 924 to 933 (1968). Theory —p'"-H transitions, Ar i and CI i sequences.
C. Roth, J. Res. Nat. Bur. Stand. 72A (Phys. and Chem.) No. 5, 505 to 520 (1968). Theory Third Spectra of Iron Group.
VI
MOLYBDMUM (Z = h2)
Mo I
C. E". Moore and P. W. Merrill, Appendix A: Partial Grotrian Diagrams
(1956); Nat. Std. Ref. Data Series, Nat. Bur. Std. NSRDS-NBS 23, 55(1968). C L
Yu. P. Dontsov, Opt. i Spektr. 8, UhS to U5l (I960). I S, C L
R. H. Hughes, Phys. Rev. 121, U99 to 500 (1961). I S, C L
Mo II
H. D. Goldgraber, Phys. Rev. 91, U56 (A) (1953). Theory
C. E. Moore and P. W. Merrill, Appendix A: Partial Grotrian Diagrams(1956); Nat. Std. Ref. Data Series, Nat. Bur. Std. NSRDS-NBS 23, 53(1968). G L
F. R. Rico, An. Real Soc. Esp. Fis. y Quim. [A] 53, 185 to 200 (1957).W L
I. I. Gromova, Opt. i Spektr. U, 687 to 689 (1958). T, C L, W LVac. Ultraviolet
~*
Y. Shadmi, Bull. Research Council Israel 9F, II4I to 170 (I96I). Theory
Mo III
F. R. Rico, An. Real Soc. Esp. Fis. y Quim. (Madrid) [A] 53, l85 to 200
(1957); 61, 103 to 118 (1965). T, G L, W L
Y. Shadmi, J. Research Nat. Bur. Std. 70A, U35 to UU5 (1966). Theory
Mo IV
F. R. Rico, An. Real Soc. Esp. Fis. y Quim. [A] 53, 185 to 200 (1957).W L
MOLYBDENUM
Mo V
F. R. Rico, An. Real Soc. Esp. FiSo y Quim. (Madrid) [A] 53, l85 to 200
(1957). W L
Mo VI
R. D. Cowan, J. Opt. Soc. Am. 58, 92h to 933 (1968). Theory
Mo VII
R. D. Cowan, J, Opt. Soc. Ajn. 58, 92U to 933 (1968). Theory
M. S.-Z. Chaghtai, unpublished analysis (Orsay, Lund)(1969). I P, T, C L
Mo VIII
R. D. Cowan, J. Opt. Soc. Am. 58, 92h to 933 (1968). Theory
M. S.-Z. Chaghtai, unpublished analysis (Orsay, Lund) (1969). T, C L
Mo IX
R. D. Cowan, J. Opt. Soc. Am. 58, 92U to 933 (1968). Theory
M. S.-Z. Chaghtai, unpublished analysis (Orsay, Lund) (I969). T, C L
Mo X
R. D. Cowan, J. Opt. Soc. Am. 58, 92h to 933 (1968). Theory
Mo XI
R. D. Cowan, J. Opt. Soc. Am. 58, 92U to 933 (1968). Theory
Mo XVI
B. Edlen, "Atomic Spectra"", Hand, der Phys., Encycl. of Phys. 27, I60
(I96U). T
2
TECHNETIUM (Z = U3)
Tc I
P. W. Merrill, Science ll5, U8U (A) (1952); Astroph. J. Il6, 21 to 26
(1952). Stellar Ident.
P. W. Merrill, Publ. Astron. Soc. Pacific 68, 70 to 7l (1956). StellarIdent
.
C. E. Moore and P. V/. Merrill, Appendix A: Partial Grotrian Diagrams
K. Murakawa, Phys. Rev. 110, 393 to 396 (1^58). hfs
J. Sugar and J. Reader, J. Opt. Soc. Am. 55, 1?66 to 1290 (196.5). I p
La III
J. Sugar and V. Kaufman, J. Ont. Soc. Am. 55, 1263 to 1285 (1965). I P,
T, C L
H. Odabasi, J. Opt. Soc. Am. 57, 1^59 to II463 (1967). I P, T, C L, G D,
W L
22
HAFNim/I (Z = 72)
Kf I
C. H. Corliss and W. F. Meggers, J. Research Nat. Bur. Std. 6l, 269 to
32a, RF290U (1958). W L, Z E
C. J. Huiriphreys and E. Paul, Jr., NAV^AEPS Report 7219, I8 (I96?).Infrared Observations
"F. F. Meg£i;ers, unpublished analysis (I966).
A. F. Golovin and I. F. Kramer, Opt. 3 Spektr. 23, 195 to 199 (1967).
I S
Hf II
C. E. Moore and P. T. Merrill, Appendix A: Partial Grotrian Diagrajns
(1956); Nat. Std. Ref. Data Series, Nat. Bur. Std. NSRDS-NBS ?3, U5(1968). C L
C. H. Corliss and W. F. Meggers, J. Research Nat. Bur. Std. 6I, 269 to
32U, RP290U (1958). w L, Z E
R. J. Melhorn, unpublished material (I966). Theory ?
Y. Bordarier and Z. B. Goldschmidt, unpublished material (Sept. 1967).
T, Theory
Hf III
C. H. Corliss and Vj. F. Megf<ers, J. Research Nat. Bur. Std. 6I, 269 to
32h, RP290U (1958). ¥i L'
~
P. F. A. Klinkenberg , Th. A. M. van Kleef and P. E. Noorman, Physica 2 7,
l5l to 152, 1177 to 1188 (1961). I P, T, C L, G D"
M. Fred and Th. A. M. van Kleef, Physica 28, 1007 to 1010 (1962). T,
Z E, E D Theory
P. E. Noorman, H. L. Guerts, VJ. B. Simons and Th. A. M. van Kleef,Physica 29, 901 to 90I4 (1963). Z E
23
HAraiUM
Hf IV
C. H. Corliss and W. F. Meggers, J. Research Nat. Bur, Std. 6l, 269 to32U, RP290U (1958). W L
~
P. F. A. Klinkenberg, Th. A. M. van Kleef and P. E. Noorman, Physica 2 7,
l5l to 1^2, 1177 to 1188 (1961). I P, T, C L, G D~
TANTALUM (Z = 73)
Ta I
W. R. Bozman and R. E. Trees, J. Research Nat. Bur. Std. 58, 95 to 100,RF2739 (1957). Theory
~
Y. Shadmi, unpublished material (I96I). T Theory
K. Murakawa, J. Phys. Soc. Japan l7, 89I to 896 (1962). hfs
Ta n
K. Murakawa, Phys. Rev. 110, 393 to 396 (1958). hfs
R. K. Trees, Phys. Rev. 123, 1293 to I3OO (I96I). T, Z E Theory
C. C. Kiess, J. Research Nat. Bur. Std. 66a, 111 to I6I (1962). I ?, T,
C L, Z E, Tl? L
Ta III
P. F. A. Klinkenberg, Analysis in progress (1963).
2h
TUNGSTEN (Z = 7h)
W I
C. E. Moore and P. W. Merrill, Appendix A: Partial Grotrian Diagrams(19^6); Nat. Std. Ref. Data Series, Nat. Bur. Std. NSRDS-MBS 23, 55(1968). G L
J. A. Vreeland and K. Murakawa, J. Phys. See. Jaoan 13, 663 to 666 (1956).
IS '
~"
G. Gluck, Ann. de ?hys. [13] 10, 673 to 696 (1965). I S, T, C L
D. D. Laun and G. H. Corliss, J. Research Nat. Bur. Std. 72A, in oress
(1968). T, G L
'A' II
D. D. Laun, J. Research Nat. Bur. Std. 68a, 20? to 252 (I96U). T, G L,
Z E
W i,xv
L. Cohen, U. Feldman, M. Swartz and J. H. Underwood, J. Opt. Soc. Am.
58, 8U3 to 8U6 (I968). W L, G L ?
RHENM (Z = 75)
Re I
C. E. Moore and P. W. Merrill, Appendix A: Partial Grotrian Diagrams(1956); Nat. Std. Ref. Data Series, Nat. Bur. Std. MSRDS-NBS 2^, 59-
(1968). C L
R. B. Trees, Phys. Rev. 112, l65 to l7l (1958). T, Z E Theory
L. Armstrong, Jr. and R. Marrus, phys. Rev. I38, E310 to B3l5 (1965).hfs, Z E
G. Hohberg, K. Krebs, B. Schulz and R. Winkler, Zeit. Phys. I86, 380 to
396 (1965). T, G L, K D, hfs, I S
25
RHEKIUM
Re I - Continued
R. G. Schlect, M. B. White and D. W. McColm, Phys. Rev. 136, B306 toB309 (1965). hfs, Z E
J. Kuhl, A. Steudel und H. Yi/alther, Zeit. Phys. 196, 365 to 38U (1966),hfs
Re II
C. E. Moore and P. 1'. Merrill, Appendix A: Partial Grotrian Diagrams(1956); Mat. Std. Ref. Data Series, Nat. Eur. Std. NSRDS-MBS 23, 57(1968). C L
—
\'(, F. Meggers, M. A. Catalan and M. Sales, J. Research Nat, Bur, Std. 6l,hhl to U6l, RP291U (1958). T, C L, Z F,
~
OSMIUM (Z .= 76)
Os I
J. Blaise, Ann. de Phys. [13] 3, 1062 to 1067 (1958). I S
Th. A. M. van Kleef, Proc. Kon. Nederl. Akad. ^^.^etensch, [B] 63, 501 to601 (I960), I P, T, C L, Z E
G. Guthohrlein, H. Kopfermann, G. Noldeke und A. Steudel, Zeit. Phys.
165, 356 to 368 (I96I). IS, hfs
Th. A. M. van Kleef and P. F. A. Klinkenberg, Physica 27, 83 to 9U(196l).I P, T, Z S
A. P. Hines and J. S. Ross, Phys. Rev. 126, 2105 to 2108 (1962). I S
K. Murakawa, J. Phys. Soc. Japan 17, 89I to 896 (1962). hfs
G. Noldeke und G. G. Saksena, Zeit. Phys. I66, 216 to 219 (1962). I S
Th. A. M. van Kleef, unpublished analysis (I963). T, C L
26
OSMIUM
Os I - Continued
G. G. Gluck, Y. Eordarier, J. Bauche et Th. A. M. van Kleef, Physica 30,2068 to 2lOlt (196a). I S, T, G L, Z E
G. Gluck, Ann. de Phys. [13] 10, 692 to 696 (1965). I S, T, C L, Z E
Os II
Th. A. M. van Kleef, Proc. Kon. Nederl. Akad. Wetensch. [B] 63, 501 to601 (i960). T, C L, Z E
Th. A. M. van Kleef and P. F. A. Klinkenberg, physica 27, 63 to 9h(196l).T, Z E
Th. A. M. van Kleef, unpublished analysis (1967). T, C L
IRIDIIM (Z = 77)
Ir I
Th. A. M. van Kleef, Physica 23, 8)43 to 897 (19?7). I P, T, C L, Z E
Ir II
Th. A. M. van Kleef, Analysis in progress (1967). T, C L, Z E
PLAT INM (Z = 78)
Pt I
W. J. Ghilds and L. S. Goodman, Bull. Arri. phys. Soc. [2] 12, 509 (1967).
T, hfs, Z E
Y. Shadmi, Physica 23, 183 to 187 (1967). Theory
27
GOLD (Z = 79)
Au I
R. Caspar, Acta Phys. Acad. Sci. Hungary 12, 335 to 3U9 (I960). Theory
E. Recknagel, Zeit. Phys. l59, 19 to 32 (I960), hfs
W. B. Ewbank and H. A. Shugart, Phys. Rev. 135 , A358 to A36l (1961i).hfs
H. Bucka und J. Ney, Zeit. Phys. 19U, 208 to 210 (1966). hTs
A. 0. Blachman, D. A. Landman and A. Lurio, Phys. Rev. l6l, 60 to 67
(1967). hfs, Z E
H. Dahmen und S. Penselin, Zeit. Phys. 200, U56 to h66 (1967). hfs
A. M. Crooker, Analysis in progress, letter (I968).
Au II
A. S. Douglas, D. R. Hartree and W. A. Runciman, Proc. Cambridge Phil.
Soc. 5l, hQ6 to 503 (1955). Theory
A. M. Crooker, Analysis in Torogress, letter (I968).
S. Davis, On Berkeley Program (I968).
Au III
L. Iglesias, J. Research Nat. Bur. Std. 6UA, U8I to U85 (I960). T, C L,
W L, E D
Y. Shadmi, J. Research Nat. Bur. Std. 69A, 5ll to 5l6 (1965). T Theory
L. Iglesias, J. Research Nat. Bur. Std. TOA, U65 to U66 (I966). T, C L
H. Mendlowitz, J. Research Nat. Bur. Std. 7lA, lU9 to l56 (1967). Theory
28
MERCURY (Z = 80)
Hg I
E. K. Plyler, L. R. Blaine and E. D. Tidwell, J. Research Nat. Bur. Std,
55, 279 to 28U, RP2630 (1955). C L, Interf. W L Infrared
P. G. Wilkinson, J. Opt. Soc. Am. U5, 862 to 867, lOhh to 10U6 (1955).W L
D. H. Rank, J. M. Bennett and H. E. Bennet, J. Opt. Soc. Am. U6, li77 toU8U (1956). Interf. W L Near Infrared
I. I. Agirbiceanu, N. lonescu-Pallas et V. Draganescu, Compt. Rend. 2h5 ,
105U to 1056 (1957). hfs
G. S. Bogle, J. N. Dodd and W. L. McLean, Proc. Phjs. Soc. (London) TOB,796 to 800 (1957). hfs
C. J. Humphreys and E. Paul, Jr., NAVORD Report li600, 23 to 36 (1957);U636, 32 pp. (1958); 5963, 5)4 to 58 (1959). Interf. W L Infrared
F. McClung and J. R. Holmes, J. Opt. Soc. Am. U7, 297 to 299 (1957). I S
J.-C. Pebay-Peyroula, J, Brossel et A. Kastler, Compt. Rend. 2iiU , 57 to
59; 2U5, 8U0 to 8ii2 (1957). hfs, Z E
R. L. Barger and K. W. Meissner, J. Opt. Soc. Am. U8, 22 to 27 (1958).Interf. W L
J. Blaise, Ann. de Phys. [13] 3, 1038 to IOU6 (1958). I S, T, C L
G. W. Charles, J. Opt. Soc. Am. U8, 668 (l) (1958). T, C L
W. Lichten, Phys. Rev. 109, 1191 to 1192 (1958). T
K. Murakawa, Phys. Rev. 110, 393 to 396 (1958). hfs
J. Terrien, Compt. Rend. 2U6, 2362 to 236I4 (1958). Interf. W L, 0 L
P. L. Sagaljm, A. C. Melissinos and F. Bitter, Phys. Rev, 109, 375 to
380 (1958). hfs
K. M. Baird and D. S. Smith, Can. J. Phys. 37, 832 to 8U0 (1959).Interf. W L
H. Chantrel, Ann. de Phys. [13] U, 987 to 990 (1959). hfs
J. J. McNeill, J. Opt. Soc. Am. U9, hhl to [iU5 (1959). W L
K. Murakawa, J. Phys. Soc. Japan lU, l62U to 1633, I836 (1959). T, hfs
29
MERCURY
Hg I - Continued
J. C. Pebay-Peyroula, J. de Phys. 20, 669 to 679, 721 to 729 (1959).hfs, Z E, E D
H. R. Hirsch and C. V. Stager, J. Opt. See. Am. 50, 10^2 to 10^3 (I960), hfs
I. Johansson and K.-F. Svensson, Ark. Fys. (Stockholm) I6, No. 3h, 3^3 to360 (i960). L, C L, Stark Effect
M. N. McDermott and W. L. Lichten, Phys. Rev. 119, 13^ to lli3 (I960),hfs
D. H. Rank, G. Skorinko, D. P. Eastman, G. D. Saksena, T. K. McCubbiri, Jr.
and T. A. Wiggins, J. Opt. Soc. Am. |o, 10l|5 to 1052 (I960), hfs
R. L. Earger and K. G. Kessler, J. Opt. Soc. Am. 5l, 82 7 to 829 (1961).Interf . Yl L
C. F. Bruce and R. M. Hill, Australian J. Phys. li|, 6)4 to 88 (I96I).W L Stark Effect
J. N. Dodd, Proc. Phys. Soc. (London) IQ, 65 to 69 (196l). hfs, Z E
C. J. Humphreys, E. Paul, Jr. and K. B. Adams, NA^r^EPS Report 7190, I6 to22 (1961). "W L Standards Near Infrared
R. H. Garstang, J. Opt. Soc. Am. 52, 8h5 to 85l (1962). C L, hfs. Theory
V. Kaufman, J, Opt. Soc. Am.. 52, 866 to 870 (1962). Interf. W L, T, C L
E. R. Peck, B. N. Khanna and N. C. Anderholm, J. Out. Soc. Am. 52, 536 to
538 (1962). \^ L Near Infrared
K. M. Baird, D. S. Smith and K. H. Hart, J. Opt. Soc. Am. 53, 7l7 to 720
(1963). Interf. L
International Committee on Weights and Measures, J. Opt. Soc. Am. 53, hOl
(1963). VJ L Standards
A. Kastler, J. Opt. Soc. Am., 53, 902 to 910 (I963). "Lamp Shift"
Th. A. M. van Kleef and M. Fred, Physica 29, 389 to hOh (1963). T, C L,
Z E
H. Kleiman and S. P. Davis, J. Opt. Soc. Am. $3, 822 to 827 (1963). hfs,
I S
G. Schweitzer, Jr., J. Opt. Soc. Am. 53> 1055 to 1072 (1963). hfs,
I S
30
IffiRCURY
Hg I - Continued
W. G. Schweitzer, Jr., J. Opt. Soc. Am. 53, 1250 to 1252 (1963).Interf . V; L
l/i/. G. Schweitzer, Jr. and K. G. Kessler, J. Opt. Soc. Am. 53, 1382 to
1388 (1963). Interf. W L
V/. J. Tomlinson III and H. H. Stroke, J. Opt. Soc. Am. 53, 828 to 830
(1963). hfs, I S
P. G. Wilkinson and K. L. Andrew, J. Opt. Soc. Am. 53, 710 to 7l7 (1963).W L
B. Edlen, Trans. Intern. Astron. Union 12A, 137 to 139 (1961|).
W L Standards
K. Bockasten, M. Garavaglia, B. A. Lengyel and T. Lundholm, J. Opt. Soc.
Am. 55, 105l to 1053 (1965). C L, W L, G D Laser Observations1.1/^ to 6.5/"'
C. J. Humphreys and E. Paul, Jr., NAVWEPS Report 8833, 27 to 3h (1965).T, C L, G D, E D 3.2/^- to U.O/^
K. Murakawa, J. Phys. Soc. Japan 20, 109 It (1965). hfs, Z E
¥. m Smith, Phys. Rev. 137, A330 to A339 (1965). hfs, Z E
K. G. Kessler, Physica 33, 29 to U6 (1967). hfs, Z K
R. G. M. Learner, unpublished material. Imperial College, London (1967).Extended Series
D. R. Beck, Thesis, Lehigh Univ., 220 pp. (1968). Theory
1. R. S. Garton and J. P. Connerade, Astroph. J., in press (1968).Absorption Series Vac. Ultraviolet
A. Khadjavi, A. Lurio and W. Happer, Phys. Rev. 167, 128 to 135 (1968).Stark Effect
D. Lacier, Compt. Rend. 266B, l509 to l5l2 (1968). hfs, I S, Z E
J. C. McConnell and B. Moiseiwitsch, J. Phys. B (Proc. Phys. Soc. London)
[2] 1, U06 to Ul3 (1968). Theory
M. W. Swagel and A. Lurio, Phys. Rev. l69, llh to 119 (1968). hfs, Z E
31
lEHCURY
Hg II
P. G. Wilkinson, J. Opt. Soc. Am. k^, 862 to 867 (19^5). Vac. Ultra-violet W L
J. Blaise, Ann. de Phys. [13] 3, 1036 to 10U6 (1958). I S, T, C L
R. W. Shorthill and G. R. Fowles, J. Opt. Soc. Am. U6, U59 to U60 (1958).I S, C L
0. Loebich und A. Steudel, Zeit. Phys. l66, 56 to 6l (1962). hfs, [C L],I S
Th. A. J/I. van Kleef and M. Fred, Physica 29, 389 to I4OU (1963). C L,
Z E
P. G. Wilkinson and K. L. Andrew, J. Opt. Soc. Am. 53, 7lO to 7l7 (1963).W L
W. E. Bell, Appl. Phys. Lett. U, 3h to 35 (I96I1). C L Laser Observations
R. L. Beyer, ?f. E. Bell, E. Hodges and A. L. Bloom, J. Opt. Soc. Am. 55,1598 to 1602 (1965). Laser Observation
IK. B. Bridges and A. N. Chester, IEEE J. C'u. Electronics QE-1 , 66 to 8h(1965). C L, W L Laser Observations
K. Murakawa, Phys. Rev. Ih6, 135 to I36 (1966). Stark Effect
Hg III
P. G. Wilkinson, J. Opt. Soc. Am. U5, 862 to 867 (1955). Vac. Ultra-violet W L
R. W. Shorthill and G. R. Fowles, J. Opt. Soc. Am. Ii8, ^459 to U60 (1958).
I S, C L
K. Muraka-wa, J. Phys. Soc. Japan ih, 162U to 1633 (1959). hfs
W. B. Bridges and A. N. Chester, IEEE J. Qu. Electronics QE-1 , 66 to 8U
(1965). C L, W L Laser Observations
32
THALLm (Z = 81)
Tl I
G. V. Marr, Proc. Roy. Soc. London [A] 22U, 83 to 90 (195Ii). C L,Autoionization
G. 0. Brink, J. G. Hubbs, W. A. Nierenberg and J. L. Viforcester, Phys.Rev.107 , 189 to 195 (1957). hfs
0. I. Odintsov, Opt. i Spektr. 9, lU2 to II46 (I960), hfs, I S
W. R. S. Garton, J. Quant. Sp. Rad. Transfer 2, 335 to 3hl (196?).Series, Autoionization
C. J. Schuler, M. Ciftan, L. C. Bradley, III and H. H. Stroke, J. Opt.Soc. Am. 52, 501 to 503 (1962). hfs, IS
W. Gough and G. Vi. Series, Proc. Phys. Soc. (London) 85, U69 to [;75
(1965) . hfs"~
N. P. Penkin and L. N. Shabanova, Opt. i Spektr. I8, 71|9 to 755, 9)41 to
9U6 (1965). I P, Absorption Series
E. M. Reeves, W. R. S. Garton and A. Bass, Proc. Phys. Soc. (London) 86,1077 to 1060 (1965). Absorption Series, Vac. Ultraviolet
S. P. Davis, H. Kleiman, D. Goorvitch and T. Aung, J. Opt. Soc. Am. 56,I60I4 to 1607 (1966). hfs, I S
~
W. R. S. Garton, V'i. H. Parkinson and E. M. Reeves, Can. J. Phys. hh, l7U5to 1752 (1966). C L, Absorption Series, Vac, Ultraviolet
G. V. Marr and R. Heppinstall, Proc, Phys. Soc. (London) 87, 293 to P98
(1966) . G L, Autoionization
J. Siguier, Gompt. Rend. 263B, lU7 to l50 (I966). C L, W L Infrared
B. W. Shore, J. Opt. Soc. Am. 57, 88I to 88U (1967). TheoryAutoionization
H. G. Palmer, F. R. Petersen and R. C. Mockler, Bull. Am. Phys. Soc. [2]
13, 892 (1968). Stark Effect, hfs
F. R. Petersen, H. G. paLm.er and J. H. Shirley, Bull. Am. Phys. Soc. [2]
13, 167Ua (1968). Stark Effect, hfs
33
THALLIUM
Tl II
C. B. Ellis and R. A. Sawyer, Phys. Rev. h? , lu5 to l50 (1936). I P, T,C L, E D, W L, hfs
~
A. S. Douglas, D. R. Hartree and W. A. Runciman, Proc. Cambridge Phil.Soc. 5l, U86 to 503 (1955). Theory
D. R. Beck, Bull. Am. Phys. Soc. [2] 1?, 336 (1967); Thesis, Lehigh Univ.,220 pp. (1968). Theory
Tl IV
A. S. Douglas, D. R. Hartree and W. A. Runciman, Proc. Cambridge Phil.Soc. 5l, U86 to 503 (1955). Theoiy
LEAD (Z = 82)
Pb I
J. Blaise, Ann. de Phys. fl3] 3, 10)4? to 1062 (1958). I S, T, C L
H. Chantrel, Ann. de Phys. [13] U, 983 to 987 (1959). hfs
W. R. S. Carton, J. Quant. Sp. Rad. Transfer 2, 335 to 3Ul (1962).Series, Autoionization
M. E. Hults, Bull. Am. phys. Soc. [2] 8, U29 (1963). Z E, [C L]
M. Wilson, Thesis, unpublished (1961j.). T, Absorption Series Ultraviolet
W. R. S. Carton and M. Wilson, Proc. Phys. Soc. (London) 87, 8Ul to 850(1966). I P, T, C L, W L Absorption Series Vac. Ultraviolet
E. B. Saloman and W. Happer, Phys. Rev. IJ4U, 7 to 22 (1966). hfs, Z E
G. M. Lawrence, Astroph. J. IU8, 26l to 268 (1967). Theory
D. R. Wood and K. L. Andrew, J. Opt. Soc. Am. 58, 8I8 to 829 (I968).
I P, T, C L, Interf. W L [ C L]
D. R. Wood, K. L. Andrew, A. Giacchetti and R. D. Cowan, J. Opt. Soc. Am.
58, 830 to 636 (1968). Z E, Theory
3k
LEAD
Pb II
J. Blaise, Ann. de Phys. [13] 3, 101^7 to 1062 (1958). I S, T, C L
F. E. Geiger, Jr., J. Opt. Soc. Am. U8, 302 to 303 (1958). I S
H. Ghantrel, Ann. de Phys. [13] h, 983 to 987 (1959). hfs
C. D. Cole, J. Opt. Soc. Am. 5U, 859 to 863 (196Ii). hfs [C L]
W. T. Silfvast, G. R. Fowles and B. D. Hopkins, Appl. Phys. Lett. 8, 3l8to 319 (1966). Laser Transitions
Pb III
D. R. Beck, Thesis, Lehigh Univ., 220 pp. (I968). Theory
Pb IV
J. F. Hart and B. H. Worsley, Can. J. Phys. 37, 983 to 988 (1959).Theory
BISllUTH (Z = 83)
Bi I
R. S. Title and K. F. Smith, Phil. Mag. [8] 5, 1281 to 1289 (I960), hfs,Z E
M. Hults and S. Mrozowski, J. Opt. Soc. Am. 855 to 858 (196)4). hfs
L. 0. Dickie and F. M. Kelly, Can. J. Phys. Ii5, 22U9 to 225l (1967). hfs
R. Chuckrow, P. C. Magnante and H. H. Stroke, J. Opt. Soc. Am. 58, 922 to
923 (1966). hfs, ED "~
J. A. Heldt, J. Opt. Soc. Am., in press (I969). hfs
35
BISLfUTH
Bi II
C. D. Cole, J. Opt. Soc. Am. |U, 8^9 to 863 (196U). hfs
M. Hults and S. Mrozowski, J. Opt. Soc. Am. 5U, 855 to 858 (196ii). hfs
POLONM (Z = 8U)
Po I
R. Caspar and K. Molnar, Acta Phys. Acad. Sci. Hungary 7, U55 to [|.62
(1957). Theory
G. M. Olsmats, S. Axensten and L. Liljegren, Ark. Fys. (Stockholm) 19,No. 3h, k69 to ^81 (1961). hfs
~
Q. W. Charles, J. Opt. Soc. Am. 56, 1292 to 1297 (1966). I P, T, C L,
li L, hfs
Po II
G. W. Charles, J. Opt. Soc. Am. 56, 1292 to 1297 (1966). T, hfsEstimates
ASTATINK (Z = 85)
At I
H. L. Garvin, T. M. Green, E. Lipworth and W. A. Nierenberg, Phys. Rev.
Lett. 1, 7U to 75 (1958). hfs
R. McLaughlin, J. Opt. Soc. Am. 965 to 967 (196h). T, C LAbsorption Observations
36
RADIUM (Z = 88)
Ra I
F. S. Tomkins, Program, At. Sp. Symposium Nat. Bur. Std. p. 25 (A)(September 1967). Absorption Series
ACTBIIUM (Z = 89)
Ac I
N. I. Kaliteevskii and A. N. Razumovskii, Atomnaya "^ergiya 3, ^8 to 550(1957). ¥ L
W. F. Meggers, Spectrochim. Acta 10, 195 to 200 (1957). C L, L
Ac II
N. I. Kaliteevskii and A. N. Razumovskii, Atomnaya Energiya 3, to 550
(1957). L
W. F. Meggers, Spectrochim. Acta 10, 195 to 200 (1957). C L, W L
Ac III
N. I. Kaliteevskii and A. N. Razumovskii, Atomnaya Energiya 3, 5U8 to 550
(1957). W L
W. F. Meggers, Spectrochim. Acta 10, 195 to 200 (1957). C L, W L
Ac IV
W. F. Meggers, Spectrochim. Acta 10, 195 to 200 (1957). W L?
37
6 U. S. GOVERNMENT PRINTING OFFICE : 1969 O - 337-259
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