1 #LyX 2.3 created this file. For more info see http://www.lyx.org/
5 \save_transient_properties true
6 \origin /systemlyxdir/examples/
9 \newcommand{\vdag}{(v)^\dagger}
10 \newcommand{\myemail}{skywalker@galaxy.far.far.away}
11 \slugcomment{Not to appear in Nonlearned J., 45.}
12 \shorttitle{Djorgovski et al.}
13 \shortauthors{Collapsed Cores in Globular Clusters}
15 \use_default_options false
16 \maintain_unincluded_children false
18 \language_package default
21 \font_roman "default" "default"
22 \font_sans "default" "default"
23 \font_typewriter "default" "default"
24 \font_math "auto" "auto"
25 \font_default_family default
26 \use_non_tex_fonts false
29 \font_sf_scale 100 100
30 \font_tt_scale 100 100
32 \use_dash_ligatures false
34 \default_output_format default
36 \bibtex_command default
37 \index_command default
38 \paperfontsize default
43 \use_package amsmath 0
44 \use_package amssymb 0
47 \use_package mathdots 1
48 \use_package mathtools 0
50 \use_package stackrel 0
51 \use_package stmaryrd 0
52 \use_package undertilde 0
54 \cite_engine_type default
58 \paperorientation portrait
68 \paragraph_separation indent
69 \paragraph_indentation default
74 \paperpagestyle default
75 \tracking_changes false
84 \begin_layout Standard
85 \begin_inset Note Note
88 \begin_layout Plain Layout
91 Sample document for contributions to journals of the American Astronomical
94 \begin_inset CommandInset href
96 name "AASTeX user guide"
97 target "http://journals.aas.org/authors/aastex/aasguide.html"
102 for details on how to use AASTeX.
106 \begin_layout Plain Layout
109 An up-to-date sample LaTeX article using AASTeX is available under
110 \begin_inset Flex URL
113 \begin_layout Plain Layout
115 http://journals.aas.org/authors/aastex/aastex.html#_download
126 \begin_inset Note Note
129 \begin_layout Plain Layout
132 The AASTeX document class uses a different name since version 6.0 (2016/02/16).
133 Depending on the version installed on your system, set the document class
134 to American Astronomical Society (AASTeX v.
135 6) or American Astronomical Society (AASTeX v.
140 \begin_layout Plain Layout
145 \begin_inset Flex URL
148 \begin_layout Plain Layout
150 http://journals.aas.org/authors/aastex/revisionhistory.html
155 ) are only partially supported by LyX (see
156 \begin_inset Flex URL
159 \begin_layout Plain Layout
161 http://www.lyx.org/trac/ticket/10027
175 Collapsed Cores in Globular Clusters, Gauge-Boson Couplings, and AAS\SpecialChar TeX
182 \begin_inset Flex altaffilmark
185 \begin_layout Plain Layout
193 \begin_inset Flex altaffilmark
196 \begin_layout Plain Layout
205 \begin_layout Affiliation
206 Astronomy Department, University of California, Berkeley, CA 94720
213 \begin_inset Flex altaffilmark
216 \begin_layout Plain Layout
225 \begin_layout Affiliation
226 National Optical Astronomy Observatories, Tucson, AZ 85719
241 \begin_inset Flex altaffilmark
244 \begin_layout Plain Layout
253 \begin_layout Affiliation
254 Space Telescope Science Institute, Baltimore, MD 21218
257 \begin_layout Altaffilation
258 \begin_inset Argument 1
261 \begin_layout Plain Layout
267 Visiting Astronomer, Cerro Tololo Inter-American Observatory.
268 CTIO is operated by AURA, Inc.
269 \begin_inset space \space{}
272 under contract to the National Science Foundation.
275 \begin_layout Altaffilation
276 \begin_inset Argument 1
279 \begin_layout Plain Layout
285 Society of Fellows, Harvard University.
288 \begin_layout Altaffilation
289 \begin_inset Argument 1
292 \begin_layout Plain Layout
298 present address: Center for Astrophysics, 60 Garden Street, Cambridge, MA
302 \begin_layout Altaffilation
303 \begin_inset Argument 1
306 \begin_layout Plain Layout
312 Visiting Programmer, Space Telescope Science Institute
315 \begin_layout Altaffilation
316 \begin_inset Argument 1
319 \begin_layout Plain Layout
325 Patron, Alonso's Bar and Grill
328 \begin_layout Abstract
329 This is a preliminary report on surface photometry of the major fraction
330 of known globular clusters, to see which of them show the signs of a collapsed
332 We also explore some diversionary mathematics and recreational tables.
336 \begin_layout Keywords
337 clusters: globular, peanut—bosons: bozos
340 \begin_layout Section
344 \begin_layout Standard
345 A focal problem today in the dynamics of globular clusters is core collapse.
346 It has been predicted by theory for decades
350 \begin_layout Plain Layout
354 citep{hen61,lyn68,spi85}
359 , but observation has been less alert to the phenomenon.
360 For many years the central brightness peak in M15
364 \begin_layout Plain Layout
373 seemed a unique anomaly.
378 \begin_layout Plain Layout
387 suggested a central peak in NGC 6397, and a limited photographic survey
392 \begin_layout Plain Layout
396 citep[Paper I]{djo84}
401 found three more cases, including NGC 6624, whose sharp center had often
406 \begin_layout Plain Layout
419 \begin_layout Section
423 \begin_layout Standard
424 All our observations were short direct exposures with CCD's.
425 At Lick Observatory we used a TI 500
426 \begin_inset Formula $\times$
429 500 chip and a GEC 575
430 \begin_inset Formula $\times$
433 385, on the 1-m Nickel reflector.
434 The only filter available at Lick was red.
435 At CTIO we used a GEC 575
436 \begin_inset Formula $\times$
440 \begin_inset Formula $B,V,$
444 \begin_inset Formula $R$
447 filters, and an RCA 512
448 \begin_inset Formula $\times$
452 \begin_inset Formula $U,B,V,R,$
456 \begin_inset Formula $I$
459 filters, on the 1.5-m reflector.
460 In the CTIO observations we tried to concentrate on the shortest practicable
461 wavelengths; but faintness, reddening, and poor short-wavelength sensitivity
462 often kept us from observing in
463 \begin_inset Formula $U$
467 \begin_inset Formula $B$
471 All four cameras had scales of the order of 0.4 arcsec/pixel, and our field
472 sizes were around 3 arcmin.
475 \begin_layout Standard
476 The CCD images are unfortunately not always suitable, for very poor clusters
477 or for clusters with large cores.
478 Since the latter are easily studied by other means, we augmented our own
479 CCD profiles by collecting from the literature a number of star-count profiles
484 \begin_layout Plain Layout
488 citep{kin68,pet76,har84,ort85}
493 , as well as photoelectric profiles
497 \begin_layout Plain Layout
506 and electronographic profiles
510 \begin_layout Plain Layout
520 In a few cases we judged normality by eye estimates on one of the Sky Surveys.
523 \begin_layout Section
527 \begin_layout Standard
528 It has been realized that helicity amplitudes provide a convenient means
533 \begin_layout Plain Layout
534 Footnotes can be inserted like this.
540 These amplitude-level techniques are particularly convenient for calculations
541 involving many Feynman diagrams, where the usual trace techniques for the
542 amplitude squared becomes unwieldy.
543 Our calculations use the helicity techniques developed by other authors
545 \begin_inset CommandInset citation
552 ; we briefly summarize below.
555 \begin_layout Subsection
559 \begin_layout Standard
560 \begin_inset CommandInset label
569 \begin_layout Standard
570 A tree-level amplitude in
571 \begin_inset Formula $e^{+}e^{-}$
574 collisions can be expressed in terms of fermion strings of the form
577 \bar{v}(p_{2},\sigma_{2})P_{-\tau}\hat{a}_{1}\hat{a}_{2}\cdots\hat{a}_{n}u(p_{1},\sigma_{1}),
583 \begin_inset Formula $p$
587 \begin_inset Formula $\sigma$
591 \begin_inset Formula $e^{\pm}$
594 four-momenta and helicities
595 \begin_inset Formula $(\sigma=\pm1)$
599 \begin_inset Formula $\hat{a}_{i}=a_{i}^{\mu}\gamma_{\nu}$
603 \begin_inset Formula $P_{\tau}=\frac{1}{2}(1+\tau\gamma_{5})$
606 is a chirality projection operator
607 \begin_inset Formula $(\tau=\pm1)$
612 \begin_inset Formula $a_{i}^{\mu}$
615 may be formed from particle four-momenta, gauge-boson polarization vectors
616 or fermion strings with an uncontracted Lorentz index associated with final-sta
620 \begin_layout NoteToEditor
621 Figures 1 and 2 should appear side-by-side in print
624 \begin_layout Standard
625 In the chiral representation the
626 \begin_inset Formula $\gamma$
629 matrices are expressed in terms of
630 \begin_inset Formula $2\times2$
634 \begin_inset Formula $\sigma$
637 and the unit matrix 1 as
640 \gamma^{\mu} & = & \left(\begin{array}{cc}
641 0 & \sigma_{+}^{\mu}\\
643 \end{array}\right),\gamma^{5}=\left(\begin{array}{cc}
646 \end{array}\right),\\
647 \sigma_{\pm}^{\mu} & = & ({\textbf{1}},\pm\sigma),
655 \hat{a}=\left(\begin{array}{cc}
658 \end{array}\right),(\hat{a})_{\pm}=a_{\mu}\sigma_{\pm}^{\mu},
663 The spinors are expressed in terms of two-component Weyl spinors as
666 u=\left(\begin{array}{c}
669 \end{array}\right),v={\textbf{(}}\vdag_{+}{\textbf{,}}\vdag_{-}{\textbf{)}}.
677 \begin_layout Standard
678 The Weyl spinors are given in terms of helicity eigenstates
679 \begin_inset Formula $\chi_{\lambda}(p)$
683 \begin_inset Formula $\lambda=\pm1$
689 \begin_layout MathLetters
692 u(p,\lambda)_{\pm} & = & (E\pm\lambda|{\textbf{p}}|)^{1/2}\chi_{\lambda}(p),\\
693 v(p,\lambda)_{\pm} & = & \pm\lambda(E\mp\lambda|{\textbf{p}}|)^{1/2}\chi_{-\lambda}(p)
701 \begin_layout Section
702 Floating material and so forth
705 \begin_layout Standard
706 Consider a task that computes profile parameters for a modified Lorentzian
710 I=\frac{1}{1+d_{1}^{P(1+d_{2})}}
718 d_{1}=\sqrt{\left(\begin{array}{c}
719 \frac{x_{1}}{R_{maj}}\end{array}\right)^{2}+\left(\begin{array}{c}
720 \frac{y_{1}}{R_{min}}\end{array}\right)^{2}}
728 d_{2}=\sqrt{\left(\begin{array}{c}
729 \frac{x_{1}}{PR_{maj}}\end{array}\right)^{2}+\left(\begin{array}{c}
730 \case{y_{1}}{PR_{min}}\end{array}\right)^{2}}
738 x_{1}=(x-x_{0})\cos\Theta+(y-y_{0})\sin\Theta
746 y_{1}=-(x-x_{0})\sin\Theta+(y-y_{0})\cos\Theta
754 \begin_layout Standard
756 \begin_inset Formula $x_{0}$
760 \begin_inset Formula $y_{0}$
763 is the star center, and
764 \begin_inset Formula $\Theta$
767 is the angle with the
768 \begin_inset Formula $x$
772 Results of this task are shown in table
777 \begin_inset CommandInset ref
784 It is not clear how these sorts of analyses may affect determination of
786 \begin_inset Formula $M_{\text{\sun}}$
789 , but the assumption is that the alternate results should be less than 90°
790 out of phase with previous values.
791 We have no observations of
795 \begin_layout Plain Layout
806 \begin_inset Formula $\nicefrac{4}{5}$
809 of the electronically submitted abstracts for AAS meetings are error-free.
813 \begin_layout Acknowledgements
817 \begin_layout Standard
818 We are grateful to V.
823 Phillips for doing the math in section
828 \begin_inset CommandInset ref
835 More information on the AAS\SpecialChar TeX
836 macros package are available at
837 \begin_inset Flex URL
840 \begin_layout Plain Layout
842 http://www.aas.org/publications/aastex
851 \begin_layout Plain Layout
860 ftp://www.aas.org/pubs/
864 \begin_layout Plain Layout
875 \begin_layout Plain Layout
886 \begin_layout Software
887 IRAF, AIPS, Astropy, ...
891 \begin_layout Appendix
895 \begin_layout Section
899 \begin_layout Standard
900 Consider once again a task that computes profile parameters for a modified
901 Lorentzian of the form
904 I=\frac{1}{1+d_{1}^{P(1+d_{2})}}
912 \begin_layout MathLetters
915 d_{1}=\frac{3}{4}\sqrt{\left(\begin{array}{c}
916 \frac{x_{1}}{R_{maj}}\end{array}\right)^{2}+\left(\begin{array}{c}
917 \frac{y_{1}}{R_{min}}\end{array}\right)^{2}}
925 d_{2}=\case{3}{4}\sqrt{\left(\begin{array}{c}
926 \frac{x_{1}}{PR_{maj}}\end{array}\right)^{2}+\left(\begin{array}{c}
927 \case{y_{1}}{PR_{min}}\end{array}\right)^{2}}
935 x_{1} & = & (x-x_{0})\cos\Theta+(y-y_{0})\sin\Theta\\
936 y_{1} & = & -(x-x_{0})\sin\Theta+(y-y_{0})\cos\Theta
944 \begin_layout Standard
945 For completeness, here is one last equation.
957 \begin_layout References
958 \begin_inset CommandInset bibitem
960 label "Auri\\`ere(1982)"
971 \begin_layout Plain Layout
983 \begin_layout References
984 \begin_inset CommandInset bibitem
986 label "Canizares et al.(1978)"
995 A., Liller, W., and McClintock, J.
1001 \begin_layout Plain Layout
1013 \begin_layout References
1014 \begin_inset CommandInset bibitem
1015 LatexCommand bibitem
1016 label "Djorgovski and King(1984)"
1022 Djorgovski, S., and King, I.
1028 \begin_layout Plain Layout
1040 \begin_layout References
1041 \begin_inset CommandInset bibitem
1042 LatexCommand bibitem
1043 label "Hagiwara and Zeppenfeld(1986)"
1049 Hagiwara, K., and Zeppenfeld, D.
1050 1986, Nucl.Phys., 274, 1
1053 \begin_layout References
1054 \begin_inset CommandInset bibitem
1055 LatexCommand bibitem
1056 label "Harris and van den Bergh(1984)"
1063 E., and van den Bergh, S.
1068 \begin_layout Plain Layout
1080 \begin_layout References
1081 \begin_inset CommandInset bibitem
1082 LatexCommand bibitem
1083 label "H\\`enon(1961)"
1090 1961, Ann.d'Ap., 24, 369
1093 \begin_layout References
1094 \begin_inset CommandInset bibitem
1095 LatexCommand bibitem
1108 \begin_layout Plain Layout
1120 \begin_layout References
1121 \begin_inset CommandInset bibitem
1122 LatexCommand bibitem
1131 1975, Dynamics of Stellar Systems, A.
1132 Hayli, Dordrecht: Reidel, 1975, 99
1135 \begin_layout References
1136 \begin_inset CommandInset bibitem
1137 LatexCommand bibitem
1138 label "King et al.(1968)"
1145 R., Hedemann, E., Hodge, S.
1152 \begin_layout Plain Layout
1164 \begin_layout References
1165 \begin_inset CommandInset bibitem
1166 LatexCommand bibitem
1167 label "Kron et al.(1984)"
1175 V., and Wasserman, L.
1181 \begin_layout Plain Layout
1193 \begin_layout References
1194 \begin_inset CommandInset bibitem
1195 LatexCommand bibitem
1196 label "Lynden-Bell and Wood(1968)"
1202 Lynden-Bell, D., and Wood, R.
1207 \begin_layout Plain Layout
1219 \begin_layout References
1220 \begin_inset CommandInset bibitem
1221 LatexCommand bibitem
1222 label "Newell and O'Neil(1978)"
1235 \begin_layout Plain Layout
1247 \begin_layout References
1248 \begin_inset CommandInset bibitem
1249 LatexCommand bibitem
1250 label "Ortolani et al.(1985)"
1256 Ortolani, S., Rosino, L., and Sandage, A.
1261 \begin_layout Plain Layout
1273 \begin_layout References
1274 \begin_inset CommandInset bibitem
1275 LatexCommand bibitem
1276 label "Peterson(1976)"
1288 \begin_layout Plain Layout
1300 \begin_layout References
1301 \begin_inset CommandInset bibitem
1302 LatexCommand bibitem
1303 label "Spitzer(1985)"
1310 1985, Dynamics of Star Clusters, J.
1312 Hut, Dordrecht: Reidel, 109
1315 \begin_layout Standard
1316 \begin_inset Newpage clearpage
1322 \begin_layout Standard
1323 \begin_inset Caption FigCaption
1325 \begin_layout Plain Layout
1326 \begin_inset CommandInset label
1332 This is the first figure and it uses sgi9259.eps as its EPS figure file.
1340 \begin_layout Standard
1341 \begin_inset Caption FigCaption
1343 \begin_layout Plain Layout
1344 \begin_inset CommandInset label
1350 This is an example of a long figure caption that must be set as a paragraph.
1351 The processor has to buffer the text of the caption, so it is good not
1352 to be too wordy, but that would make for poor communication as well.
1361 \begin_layout Standard
1362 \begin_inset Caption FigCaption
1364 \begin_layout Plain Layout
1365 \begin_inset CommandInset label
1371 This figure has no associated EPS file, so the optional parameter is omitted.
1380 \begin_layout Standard
1381 \begin_inset Newpage clearpage
1387 \begin_layout Standard
1388 \begin_inset Float table
1393 \begin_layout Plain Layout
1394 \begin_inset Caption Standard
1396 \begin_layout Plain Layout
1397 Terribly relevant tabular information.
1398 \begin_inset CommandInset label
1412 \begin_layout Plain Layout
1413 \begin_inset VSpace medskip
1419 \begin_layout Plain Layout
1421 \begin_inset Tabular
1422 <lyxtabular version="3" rows="7" columns="13">
1423 <features tabularvalignment="middle">
1424 <column alignment="center" valignment="top" width="0pt">
1425 <column alignment="right" valignment="top" width="0pt">
1426 <column alignment="right" valignment="top" width="0pt">
1427 <column alignment="right" valignment="top" width="0pt">
1428 <column alignment="right" valignment="top" width="0pt">
1429 <column alignment="right" valignment="top" width="0pt">
1430 <column alignment="right" valignment="top" width="0pt">
1431 <column alignment="right" valignment="top" width="0pt">
1432 <column alignment="right" valignment="top" width="0pt">
1433 <column alignment="right" valignment="top" width="0pt">
1434 <column alignment="right" valignment="top" width="0pt">
1435 <column alignment="right" valignment="top" width="0pt">
1436 <column alignment="center" valignment="top" width="0pt">
1438 <cell alignment="center" valignment="top" usebox="none">
1441 \begin_layout Plain Layout
1447 <cell alignment="right" valignment="top" usebox="none">
1450 \begin_layout Plain Layout
1456 <cell alignment="right" valignment="top" usebox="none">
1459 \begin_layout Plain Layout
1461 \begin_inset Formula $d_{x}$
1469 <cell alignment="right" valignment="top" usebox="none">
1472 \begin_layout Plain Layout
1474 \begin_inset Formula $d_{y}$
1482 <cell alignment="right" valignment="top" usebox="none">
1485 \begin_layout Plain Layout
1487 \begin_inset Formula $n$
1495 <cell alignment="right" valignment="top" usebox="none">
1498 \begin_layout Plain Layout
1500 \begin_inset Formula $\chi^{2}$
1508 <cell alignment="right" valignment="top" usebox="none">
1511 \begin_layout Plain Layout
1513 \begin_inset Formula $R_{maj}$
1521 <cell alignment="right" valignment="top" usebox="none">
1524 \begin_layout Plain Layout
1526 \begin_inset Formula $R_{min}$
1534 <cell multicolumn="1" alignment="center" valignment="top" usebox="none">
1537 \begin_layout Plain Layout
1538 \begin_inset Formula $P$
1542 \begin_inset Flex tablenotemark
1545 \begin_layout Plain Layout
1556 <cell alignment="right" valignment="top" usebox="none">
1559 \begin_layout Plain Layout
1561 \begin_inset Formula $PR_{maj}$
1569 <cell alignment="right" valignment="top" usebox="none">
1572 \begin_layout Plain Layout
1574 \begin_inset Formula $PR_{min}$
1582 <cell multicolumn="1" alignment="center" valignment="top" usebox="none">
1585 \begin_layout Plain Layout
1586 \begin_inset Formula $\Theta$
1590 \begin_inset Flex tablenotemark
1593 \begin_layout Plain Layout
1604 <cell alignment="center" valignment="top" usebox="none">
1607 \begin_layout Plain Layout
1615 <cell alignment="center" valignment="top" usebox="none">
1618 \begin_layout Plain Layout
1622 \begin_layout Plain Layout
1638 <cell alignment="right" valignment="top" usebox="none">
1641 \begin_layout Plain Layout
1647 <cell alignment="right" valignment="top" usebox="none">
1650 \begin_layout Plain Layout
1656 <cell alignment="right" valignment="top" usebox="none">
1659 \begin_layout Plain Layout
1665 <cell alignment="right" valignment="top" usebox="none">
1668 \begin_layout Plain Layout
1674 <cell alignment="right" valignment="top" usebox="none">
1677 \begin_layout Plain Layout
1683 <cell alignment="right" valignment="top" usebox="none">
1686 \begin_layout Plain Layout
1692 <cell alignment="right" valignment="top" usebox="none">
1695 \begin_layout Plain Layout
1701 <cell alignment="right" valignment="top" usebox="none">
1704 \begin_layout Plain Layout
1710 <cell alignment="right" valignment="top" usebox="none">
1713 \begin_layout Plain Layout
1719 <cell alignment="right" valignment="top" usebox="none">
1722 \begin_layout Plain Layout
1728 <cell alignment="right" valignment="top" usebox="none">
1731 \begin_layout Plain Layout
1737 <cell alignment="right" valignment="top" usebox="none">
1740 \begin_layout Plain Layout
1748 <cell alignment="center" valignment="top" usebox="none">
1751 \begin_layout Plain Layout
1757 <cell alignment="right" valignment="top" usebox="none">
1760 \begin_layout Plain Layout
1766 <cell alignment="right" valignment="top" usebox="none">
1769 \begin_layout Plain Layout
1775 <cell alignment="right" valignment="top" usebox="none">
1778 \begin_layout Plain Layout
1784 <cell alignment="right" valignment="top" usebox="none">
1787 \begin_layout Plain Layout
1793 <cell alignment="right" valignment="top" usebox="none">
1796 \begin_layout Plain Layout
1802 <cell alignment="right" valignment="top" usebox="none">
1805 \begin_layout Plain Layout
1811 <cell alignment="right" valignment="top" usebox="none">
1814 \begin_layout Plain Layout
1820 <cell alignment="right" valignment="top" usebox="none">
1823 \begin_layout Plain Layout
1829 <cell alignment="right" valignment="top" usebox="none">
1832 \begin_layout Plain Layout
1838 <cell alignment="right" valignment="top" usebox="none">
1841 \begin_layout Plain Layout
1847 <cell alignment="right" valignment="top" usebox="none">
1850 \begin_layout Plain Layout
1856 <cell alignment="right" valignment="top" usebox="none">
1859 \begin_layout Plain Layout
1867 <cell alignment="center" valignment="top" usebox="none">
1870 \begin_layout Plain Layout
1876 <cell alignment="right" valignment="top" usebox="none">
1879 \begin_layout Plain Layout
1885 <cell alignment="right" valignment="top" usebox="none">
1888 \begin_layout Plain Layout
1894 <cell alignment="right" valignment="top" usebox="none">
1897 \begin_layout Plain Layout
1903 <cell alignment="right" valignment="top" usebox="none">
1906 \begin_layout Plain Layout
1912 <cell alignment="right" valignment="top" usebox="none">
1915 \begin_layout Plain Layout
1921 <cell alignment="right" valignment="top" usebox="none">
1924 \begin_layout Plain Layout
1930 <cell alignment="right" valignment="top" usebox="none">
1933 \begin_layout Plain Layout
1939 <cell alignment="right" valignment="top" usebox="none">
1942 \begin_layout Plain Layout
1948 <cell alignment="right" valignment="top" usebox="none">
1951 \begin_layout Plain Layout
1957 <cell alignment="right" valignment="top" usebox="none">
1960 \begin_layout Plain Layout
1966 <cell alignment="right" valignment="top" usebox="none">
1969 \begin_layout Plain Layout
1975 <cell alignment="right" valignment="top" usebox="none">
1978 \begin_layout Plain Layout
1986 <cell alignment="center" valignment="top" usebox="none">
1989 \begin_layout Plain Layout
1995 <cell alignment="right" valignment="top" usebox="none">
1998 \begin_layout Plain Layout
2004 <cell alignment="right" valignment="top" usebox="none">
2007 \begin_layout Plain Layout
2009 \begin_inset Flex tablenotemark
2012 \begin_layout Plain Layout
2023 <cell alignment="right" valignment="top" usebox="none">
2026 \begin_layout Plain Layout
2032 <cell alignment="right" valignment="top" usebox="none">
2035 \begin_layout Plain Layout
2041 <cell alignment="right" valignment="top" usebox="none">
2044 \begin_layout Plain Layout
2050 <cell alignment="right" valignment="top" usebox="none">
2053 \begin_layout Plain Layout
2059 <cell alignment="right" valignment="top" usebox="none">
2062 \begin_layout Plain Layout
2068 <cell alignment="right" valignment="top" usebox="none">
2071 \begin_layout Plain Layout
2077 <cell alignment="right" valignment="top" usebox="none">
2080 \begin_layout Plain Layout
2086 <cell alignment="right" valignment="top" usebox="none">
2089 \begin_layout Plain Layout
2095 <cell alignment="right" valignment="top" usebox="none">
2098 \begin_layout Plain Layout
2104 <cell alignment="right" valignment="top" usebox="none">
2107 \begin_layout Plain Layout
2115 <cell alignment="center" valignment="top" usebox="none">
2118 \begin_layout Plain Layout
2124 <cell alignment="right" valignment="top" usebox="none">
2127 \begin_layout Plain Layout
2133 <cell alignment="right" valignment="top" usebox="none">
2136 \begin_layout Plain Layout
2142 <cell alignment="right" valignment="top" usebox="none">
2145 \begin_layout Plain Layout
2151 <cell alignment="right" valignment="top" usebox="none">
2154 \begin_layout Plain Layout
2160 <cell alignment="right" valignment="top" usebox="none">
2163 \begin_layout Plain Layout
2169 <cell alignment="right" valignment="top" usebox="none">
2172 \begin_layout Plain Layout
2174 \begin_inset Flex tablenotemark
2177 \begin_layout Plain Layout
2188 <cell alignment="right" valignment="top" usebox="none">
2191 \begin_layout Plain Layout
2197 <cell alignment="right" valignment="top" usebox="none">
2200 \begin_layout Plain Layout
2206 <cell alignment="right" valignment="top" usebox="none">
2209 \begin_layout Plain Layout
2215 <cell alignment="right" valignment="top" usebox="none">
2218 \begin_layout Plain Layout
2224 <cell alignment="right" valignment="top" usebox="none">
2227 \begin_layout Plain Layout
2233 <cell alignment="right" valignment="top" usebox="none">
2236 \begin_layout Plain Layout
2244 <cell alignment="center" valignment="top" usebox="none">
2247 \begin_layout Plain Layout
2253 <cell alignment="right" valignment="top" usebox="none">
2256 \begin_layout Plain Layout
2262 <cell alignment="right" valignment="top" usebox="none">
2265 \begin_layout Plain Layout
2271 <cell alignment="right" valignment="top" usebox="none">
2274 \begin_layout Plain Layout
2280 <cell alignment="right" valignment="top" usebox="none">
2283 \begin_layout Plain Layout
2289 <cell alignment="right" valignment="top" usebox="none">
2292 \begin_layout Plain Layout
2298 <cell alignment="right" valignment="top" usebox="none">
2301 \begin_layout Plain Layout
2307 <cell alignment="right" valignment="top" usebox="none">
2310 \begin_layout Plain Layout
2316 <cell alignment="right" valignment="top" usebox="none">
2319 \begin_layout Plain Layout
2325 <cell alignment="right" valignment="top" usebox="none">
2328 \begin_layout Plain Layout
2334 <cell alignment="right" valignment="top" usebox="none">
2337 \begin_layout Plain Layout
2343 <cell alignment="right" valignment="top" usebox="none">
2346 \begin_layout Plain Layout
2352 <cell alignment="right" valignment="top" usebox="none">
2355 \begin_layout Plain Layout
2369 \begin_layout Table note
2374 \begin_layout Plain Layout
2381 Sample footnote for table
2382 \begin_inset space ~
2386 \begin_inset CommandInset ref
2392 that was generated with the \SpecialChar LaTeX
2396 \begin_layout Table note
2401 \begin_layout Plain Layout
2408 Yet another sample footnote for table
2409 \begin_inset space ~
2413 \begin_inset CommandInset ref
2422 \begin_layout Table note
2427 \begin_layout Plain Layout
2434 Another sample footnote for table
2435 \begin_inset space ~
2439 \begin_inset CommandInset ref
2448 \begin_layout TableComments
2449 We can also attach a long-ish paragraph of explanatory material to a table.
2452 tablerefs to append a list of references.
2453 The following references were from a different table: I've patched them
2454 in here to show how they look, but don't take them too seriously—I certainly
2458 \begin_layout TableRefs
2459 (1) Barbuy, Spite, & Spite 1985; (2) Bond 1980; (3) Carbon et al.
2460 1987; (4) Hobbs & Duncan 1987; (5) Gilroy et al.
2461 1988: (6) Gratton & Ortolani 1986; (7) Gratton & Sneden 1987; (8) Gratton
2462 & Sneden (1988); (9) Gratton & Sneden 1991; (10) Kraft et al.
2463 1982; (11) LCL, or Laird, 1990; (12) Leep & Wallerstein 1981; (13) Luck
2464 & Bond 1981; (14) Luck & Bond 1985; (15) Magain 1987; (16) Magain 1989;
2465 (17) Peterson 1981; (18) Peterson, Kurucz, & Carney 1990; (19) RMB; (20)
2466 Schuster & Nissen 1988; (21) Schuster & Nissen 1989b; (22) Spite et al.
2467 1984; (23) Spite & Spite 1986; (24) Hobbs & Thorburn 1991; (25) Hobbs et
2469 1991; (26) Olsen 1983.
2477 \begin_layout Standard
2478 \begin_inset Note Note
2481 \begin_layout Plain Layout
2482 LyX can load deluxetable files verbatim.
2483 To see this in action, dissolve the following Note and copy the file table.tex
2484 from the AASTeX 5.0 distribution into the same directory as this file.
2492 \begin_layout Standard
2493 \begin_inset Note Note
2496 \begin_layout Plain Layout
2497 \begin_inset CommandInset include