Last update: 2022-06-22 by Wojtek Pych
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The Cluster AgeS Experiment (CASE):
Catalog of Variable Stars in the Globular Cluster ω Centauri

Kaluzny J.; Olech A.; Thompson I.B.; Pych W.; Krzeminski W.; Schwarzenberg-Czerny A.

Abstract:
We present results of a photometric survey for variable stars in the field of the globular cluster omega Centauri. The observed region was centered roughly on the cluster core and covered 644 arcmin2. The cluster was monitored on 59 nights in 1999 and 2000. A total of 117 new variables were identified. Among them there are 16 RR Lyr-type stars, 35 SX Phe variables and 26 eclipsing binaries.

A comprehensive catalog including all variable stars so far reported from the cluster field is presented. We list basic photometric properties and provide finding charts for a total of 392 objects. For 313 of them new BV light curves were obtained.

The presented sample includes several interesting variables, such as SX Phe stars with extremely short periods of pulsation and several candV.dates for pulsating K giants. Optical counterparts to 9 X-ray sources detected by XMM and Chandra telescopes were identified: all of them are likely to be foreground variables not related to the cluster.

DOWNLOADS:
The paper (PDF) Cluster AgeS ExperimentCatalog of variable stars in the globular cluster ω Centauri
Kaluzny, J.; Olech, A.; Thompson, I. B.; Pych, W.; Krzemiński, W.; Schwarzenberg-Czerny, A.
2004, Astronomy and Astrophysics, v.424, p.1101-1110
Template image
in V-band (FITS)
Field E
Template image
in V-band (FITS)
Field W


Table 1:Basic properties of variable stars in omega Centauri
Star RA [2000] Decl. [2000] Period [days] Vmax Δ V B-V PMa Typeb V light-curvec B light-curvec Remarks
V1 13 26 05.26 -47 23 42.8 29.3479 11.05 1.4 - - RV - - saturated
V2 13 26 12.65 -47 24 41.9 235.74 12.5: 4.11 0.806 - LT V002V.dat - GC23
V3 13 25 56.15 -47 25 53.8 0.841258 14.01 0.75 0.518 - RR0 V003V.dat - GC184
V4 13 26 12.93 -47 24 18.8 0.627320 13.83 1.04 0.452 - RR0 V004V.dat - GC99
V5 13 26 18.33 -47 23 12.4 0.515274 14.0: 1.15 0.49 - RR0 V005V.dat - GC101, Bl
V6 13 26 30.24 -47 24 28.4 110: 13.84 1.4 - - LT - - saturated in V
V7 13 27 00.90 -47 14 00.5 0.7130 14.08 0.93 - - RR0 - - GC87, out
V8 13 27 48.45 -47 28 20.3 0.521329 13.90 1.26 0.378 - RR0 V008V.dat - GC199
V9 13 25 59.58 -47 26 24.0 0.523480 14.1: 1.09 0.518 - RR0 V009V.dat - GC183, Bl
V10 13 26 06.99 -47 24 36.6 0.374976 14.31 0.37 0.418 - RR1 V010V.dat - GC98
V11 13 26 30.59 -47 23 01.6 0.564789 14.2: 0.65 0.38 - RR0 V011V.dat - GC126, mp
V12 13 26 27.21 -47 24 06.2 0.386769 14.32 0.43 0.418 - RR1 V012V.dat - GC125
V13 13 25 58.18 -47 25 21.6 0.669039 13.92 0.95 0.486 - RR0 V013V.dat - GC188
V14 13 25 59.74 -47 39 09.6 0.377114 14.29 0.47 0.381 - RR1 V014V.dat -
V15 13 26 27.11 -47 24 38.0 0.810642 14.04 0.7 0.53 - RR0 V015V.dat - GC124
V16 13 27 37.69 -47 37 34.8 0.330202 14.33 0.49 0.355 - RR1 V016V.dat - GC205
V17 13 27 37.77 -47 25 170 ? 14.2: 0.4 - - LT - - saturated
V18 13 27 45.11 -47 24 56.6 0.621689 13.89 1.14 0.401 - RR0 V018V.dat - GC200
V19 13 27 30.14 -47 28 05.2 0.299551 14.61 0.45 0.357 - RR1 V019V.dat - GC192
V20 13 27 14.05 -47 28 06.3 0.615559 13.92 1.12 0.43 - RR0 V020V.dat - GC163
V21 13 26 11.17 -47 25 58.8 0.380812 14.12 0.46 0.345 - RR1 V021V.dat - GC97
V22 13 27 41.04 -47 34 07.6 0.396055 14.35 0.45 0.382 - RR1 V022V.dat - GC190, pc
V23 13 26 46.50 -47 24 39.5 0.510870 14.23 1.05 0.443 - RR0 V023V.dat - GC146
V24 13 27 38.32 -47 34 14.5 0.462278 14.30 0.39 0.406 - RR1 V024V.dat - GC189
V25 13 26 25.52 -47 28 23.3 0.588364 13.93 0.92 0.456 - RR0 V025V.dat - GC113
V26 13 26 23.64 -47 26 59.4 0.784720 14.20 0.59 0.548 - RR0 V026V.dat - GC120
V27 13 26 2604 -47 28 16.5 0.615680 14.43 0.59 0.518 - RR0 V027V.dat - GC114
V28 - - - - - - - - - - not var
V29 13 26 27.28 -47 28 47.4 14.73383 12.39 1.11 - - AC - - saturated
V30 13 26 15.94 -47 29 56.0 0.40441 14.30 0.38 0.344 - RR1 V030V.dat - GC92, pc
V31 - - - - - - - - - - not var
V32 13 27 03.32 -47 21 38.9 0.620373 13.84 1.17 0.432 - RR0 V032V.dat - GC82
V33 13 25 51.60 -47 29 05.8 0.602324 13.85 1.17 0.388 - RR0 V033V.dat - GC182
V34 13 26 07.21 -47 33 10.4 0.733967 14.05 0.79 0.504 - RR0 V034V.dat - GC90
V35 13 26 53.21 -47 22 34.7 0.386841 14.35 0.45 0.335 - RR1 V035V.dat - GC78
V36 13 27 10.11 -47 15 29.8 0.379846 14.55 0.49 - - RR1 - - GC86, out
V37 - - - - - - - - - - not var
V38 13 27 03.30 -47 36 30.2 0.779061 14.17 0.59 0.547 - RR0 V038V.dat - GC170
V39 13 27 59.77 -47 34 42.3 0.393374 14.34 0.48 0.363 - RR1 V039V.dat - GC197
V40 13 26 24.56 -47 30 46.2 0.634072 13.88 1.11 0.456 - RR0 V040V.dat - GC107
V41 13 27 01.41 -47 31 01.7 0.662942 13.98 0.97 0.491 - RR0 V041V.dat - GC129
V42 13 26 46.38 -47 29 30.9 146.5972 12.5 2.4 - - Mira - - saturated
V43 13 26 34.55 -47 26 57.3 1.156889 13.29 0.94 0.417 - AC V043V.dat -
V44 13 26 22.39 -47 34 35.3 0.567545 14.17 0.98 0.516 - RR0 V044V.dat - GC88
V45 13 25 30.88 -47 27 21.0 0.589116 13.9: 1.03 0.475 - RR0 V045V.dat - GC179, Bl
V46 13 25 30.23 -47 25 51.8 0.686971 13.99 0.92 0.484 - RR0 V046V.dat - GC180
V47 13 25 56.46 -47 24 12.0 0.485303 14.14 0.41 0.412 - RR1 V047V.dat - GC185
V48 13 26 37.82 -47 30 25.2 4.475218 12.95 0.85 - - AC - - saturated
V49 13 26 07.78 -47 37 55.5 0.604627 14.05 0.9 0.502 - RR0 V049V.dat - GC165
V50 13 25 53.94 -47 27 35.8 0.386172 14.43 0.45 0.372 - RR1 V050V.dat - GC187
V51 13 26 42.66 -47 24 21.4 0.574152 13.83 1.18 0.442 - RR0 V051V.dat - GC147
V52 13 26 35.19 -47 28 03.8 0.660386 13.42 0.54 0.376 - RR0 V052V.dat - GC116
V53 13 25 58.79 -47 36 09.8 32.7 13.30 0.57 - - irr - - saturated
V54 13 26 23.54 -47 18 47.7 0.772915 14.08 0.65 0.516 - RR0 V054V.dat - GC74
V55 13 25 45.00 -47 42 18.0 0.581724 14.50 1 - - RR0 - - out
V56 13 25 55.53 -47 37 44.1 0.568023 14.3: 0.8 0.467 - RR0 V056V.dat - Bl
V57 13 27 49.38 -47 36 50.5 0.794402 14.17 0.58 0.515 - RR0 V057V.dat - GC206
V58 13 26 13.05 -47 24 03.0 0.369880 14.34 0.28 0.315 - RR1 V058V.dat - GC100 pc
V59 13 26 18.43 -47 29 46.7 0.518506 14.3: 0.7 0.512 - RR0 V059V.dat - GC93 Bl
V60 13 26 35.69 -47 32 48.1 1.349469 13.22 0.98 0.325 - AC V060V.dat - GC103
V61 13 27 13.99 -47 27 30.5 2.273566 13.42 0.55 0.636 - AC V061V.dat - GC164
V62 13 26 26.59 -47 27 55.4 0.619770 13.84 1.07 0.42 - RR0 V062V.dat - GC117
V63 13 25 07.96 -47 36 54.1 0.825943 14.59 0.58 - - RR0 - - out
V64 13 26 02.22 -47 36 19.2 0.344497 14.32 0.49 0.343 - RR1 V064V.dat -
V65 13 26 01.61 -47 36 35.7 0.0627236 14.82 0.18 0.361 - SX V065V.dat - mp, f?
V66 13 26 33.08 -47 22 252 0.407266 14.30 0.4 0.381 - RR1 V066V.dat - GC76, pc
V67 13 26 28.62 -47 18 46.9 0.564451 14.08 1.04 0.437 - RR0 V067V.dat - GC77, Bl
V68 13 26 12.80 -47 19 35.7 0.534609 14.04 0.38 0.429 - RR1 V068V.dat - GC73, pc
V69 13 25 11.02 -47 37 33.5 0.635221 14.14 1.21 - - RR0 - - out
V70 13 27 27.76 -47 33 42.7 0.390687 14.37 0.41 0.374 - RR1 V070V.dat - GC151
V71 13 27 08.08 -47 27 51.6 0.357544 14.33 0.44 0.37 - RR1 V071V.dat - GC157
V72 13 27 33.11 -47 16 22.9 0.384522 14.44 0.66 - - RR1 - - out
V73 13 25 53.75 -47 16 10.8 0.575215 14.00 1.32 - - RR0 - - Bl, out
V74 13 27 07.22 -47 17 33.9 0.503209 13.89 1.16 0.315 - RR0 V074V.dat - GC85, Bl
V75 13 27 19.70 -47 18 46.5 0.422174 14.30 0.39 0.372 - RR1 V075V.dat - GC84
V76 13 26 57.23 -47 20 07.7 0.337962 14.34 0.37 0.339 - RR1 V076V.dat - GC79
V77 13 27 20.89 -47 22 05.6 0.426294 14.38 0.42 0.379 - RR1 V077V.dat - GC80
V78 13 27 44.07 -47 26 09.4 1.168129 14.12 0.66 - - EA V078V.dat -
V79 13 28 24.99 -47 29 25.2 0.608276 13.98 1.08 - - RR0 - - GC204, out
V80 13 28 55.06 -47 30 16.4 0.45 14.1: 0.7 - - ??? - - out
V81 13 27 36.68 -47 24 48.3 0.389392 14.40 0.44 0.454 - RR1 V081V.dat - GC195
V82 13 27 35.61 -47 26 30.3 0.335758 14.38 0.39 0.385 - RR1 V082V.dat - GC193, Bl?
V83 13 27 08.42 -47 21 34.1 0.356612 14.36 0.48 0.328 - RR1 V083V.dat - GC83
V84 13 24 47.45 -47 29 56.5 0.579873 13.91 0.66 - - RR0 - - GC174, out
V85 13 25 06.49 -47 23 34.0 0.742758 14.47 0.74 - - RR0 - - GC176, out
V86 13 27 15.19 -47 26 11.1 0.647844 13.96 1 0.442 - RR0 V086V.dat - GC158
V87 13 26 57.47 -47 25 35.4 0.396488 14.37 0.47 0.421 - RR1 V087V.dat - GC144
V88 13 26 55.91 -47 25 16.3 0.690211 14.02 0.85 0.434 - RR0 V088V.dat - GC210
V89 13 26 45.98 -47 26 01.0 0.375110 14.43 0.46 0.369 - RR1 V089V.dat - GC143, pc
V90 13 26 45.76 -47 26 23.4 0.603404 13.85 1.09 0.48 - RR0 V090V.dat - GC141
V91 13 26 50.61 -47 26 15.6 0.895225 14.05 0.58 0.546 - RR0 V091V.dat -
V92 13 26 14.84 -47 21 14.4 1.346040 13.82 0.33 0.572 - AC V092V.dat - GC72, pc?
V93 - - - - - - - - - - not var
V94 13 25 57.06 -47 22 46.1 0.253936 14.6: 0.3 0.304 - RR1 V094V.dat - GC186, mp
V95 13 25 24.95 -47 28 53.2 0.405067 14.37 0.41 0.375 - RR1 V095V.dat - GC178
V96 13 26 39.31 -47 27 03.0 0.624527 13.81 0.87 0.583 - RR0 V096V.dat -
V97 13 27 08.49 -47 25 30.9 0.691898 14.03 0.89 0.425 - RR0 V097V.dat - GC159, Bl
V98 13 27 05.85 -47 26 56.5 0.280566 14.55 0.47 0.37 - RR1 V098V.dat - GC160
V99 13 27 02.16 -47 27 48.8 0.766181 13.63 1.07 0.47 - RR0 V099V.dat - GC137
V100 13 27 04.04 -47 27 33.4 0.552745 14.15 1.1 0.589 - RR0 V100V.dat -
V101 13 27 30.24 -47 29 51.0 0.340946 14.42 0.41 0.368 - RR1 V101V.dat - GC194, mp
V102 13 27 22.11 -47 30 12.3 0.691396 14.01 0.96 0.448 - RR0 V102V.dat - GC153
V103 13 27 14.29 -47 28 36.3 0.328852 14.40 0.29 0.327 - RR1 V103V.dat -
V104 13 28 07.76 -47 33 44.9 0.866524 14.34 0.38 0.535 - RR0 V104V.dat - GC201
V105 13 27 46.02 -47 32 43.9 0.335328 14.52 0.49 0.374 - RR1 V105V.dat - GC198
V106 13 26 59.19 -47 28 12.5 0.569903 13.8: 1.15 0.424 - RR0 V106V.dat - Bl
V107 13 27 14.05 -47 30 57.9 0.514102 14.13 1.22 0.368 - RR0 V107V.dat - GC154
V108 13 27 04.71 -47 29 25.7 0.594458 13.88 1.11 0.459 - RR0 V108V.dat - GC211
V109 13 27 01.56 -47 29 36.6 0.744098 13.92 0.95 0.463 - RR0 V109V.dat - GC133
V110 13 27 02.08 -47 30 06.6 0.332107 14.4: 0.49 0.353 - RR1 V110V.dat - mp
V111 13 26 49.03 -47 28 40.4 0.762905 14.04 0.65 0.507 - RR0 V111V.dat - GC136
V112 13 26 54.28 -47 30 23.2 0.474359 13.84 1 0.348 - RR0 V112V.dat - GC150, Bl
V113 13 26 56.34 -47 31 47.6 0.573375 13.85 1.16 0.457 - RR0 V113V.dat - GC128
V114 13 26 50.12 -47 30 21.1 0.675307 13.97 0.87 0.47 - RR0 V114V.dat -
V115 13 26 12.30 -47 34 17.5 0.630474 13.9: 1.06 0.49 - RR0 V115V.dat - GC89, Bl
V116 13 26 35.50 -47 28 07.0 0.720133 14.03 0.69 0.475 - RR0 V116V.dat - GC127
V117 13 26 19.91 -47 29 21.0 0.421641 14.29 0.41 0.413 - RR1 V117V.dat - GC94
V118 13 26 40.56 -47 30 19.1 0.611618 13.82 1.04 0.426 - RR0 V118V.dat - GC109
V119 13 26 38.29 -47 31 18.0 0.305876 14.54 0.31 0.306 - RR1 V119V.dat - GC106
V120 13 26 25.52 -47 32 48.6 0.548537 14.2: 0.98 0.468 - RR0 V120V.dat - GC104, Bl
V121 13 26 28.17 -47 31 50.5 0.304182 14.45 0.28 0.314 - RR1 V121V.dat - GC105
V122 13 26 30.31 -47 33 02.2 0.634929 13.93 1.07 0.46 - RR0 V122V.dat - GC102
V123 13 26 51.17 -47 37 13.2 0.474169 14.26 0.38 0.434 - RR1 V123V.dat - GC169, mp
V124 13 26 54.49 -47 39 07.5 0.331860 14.32 0.51 0.355 - RR1 V124V.dat - GC168
V125 13 26 48.92 -47 41 03.7 0.592888 13.90 1.17 - - RR0 - - GC166, out
V126 13 28 08.03 -47 40 46.7 0.341891 14.39 0.46 - - RR1 - - GC207, out
V127 13 25 19.36 -47 28 37.6 0.305274 14.48 0.32 - - RR2 - - GC175, out
V128 13 26 1775 -47 30 13.0 0.834988 14.10 0.58 0.513 - RR0 V128V.dat - GC91
V129 13 27 05.32 -47 29 04.7 - ? - - - LT - - saturated
V130 13 26 09.93 -47 13 40.0 0.493250 14.40 0.67 - - RR0 - - GC75, Bl, out
V131 13 26 30.07 -47 29 40.7 0.392252 14.29 0.41 0.384 - RR1 V131V.dat - GC110, pc
V132 13 26 39.22 -47 29 09.8 0.655656 13.91 0.93 0.434 - RR0 V132V.dat -
V133 13 23 38.06 -47 11 07.0 0.317096 13.74 0.79 - - EW - - out
V134 13 25 13.42 -47 12 28.7 0.652903 14.12 1.2 - - RR0 - - out
V135 13 26 28.14 -47 29 17.6 0.632579 14.03 0.83 0.351 - RR0 V135V.dat - mp?
V136 13 26 31.09 -47 27 40.5 0.391945 14.18 0.41 0.356 - RR1 V136V.dat - mp
V137 13 26 31.55 -47 27 04.3 0.334205 14.32 0.47 0.35 - RR1 V137V.dat - GC119
V138 13 26 35.44 -47 31 48.4 74.6 12.5 1.1 - - irr - - saturated
V139 13 26 37.76 -47 27 35.2 0.676871 13.88 0.83 0.51 - RR0 V139V.dat - GC118
V140 13 26 42.16 -47 30 07.1 0.619849 14.0: 133 0.344 - RR0 V140V.dat - Bl
V141 13 26 40.91 -47 29 27.9 0.697363 14.1: 0.71 0.467 - RR0 V141V.dat - Bl
V142 13 26 42.67 -47 28 42.7 0.375848 14.4: 0.4 0.492 - RR1 V142V.dat - mp
V143 13 26 42.64 -47 27 28.8 0.820734 14.10 0.6 0.492 - RR0 V143V.dat -
V144 13 26 43.06 -47 28 17.9 0.835320 14.17 0.46 0.541 - RR0 V144V.dat - GC112
V145 13 26 5126 -47 31 08.6 0.373214 14.32 0.41 0.415 - RR1 V145V.dat - GC130, mp?
V146 13 26 52.87 -47 29 27.9 0.633092 13.88 1.04 0.517 - RR0 V146V.dat - -
V147 13 27 15.86 -47 31 09.2 0422699 14.27 0.43 0.336 - RR1 V147V.dat - mp
V148 13 27 1585 -47 27 54.0 90: 12.9 0.9 - - LT - - saturated
V149 13 27 32.94 -47 13 43.6 0.682728 14.03 1.08 - - RR0 - - out
V150 13 27 40.21 -47 36 00.1 0.899308 13.91 0.77 0.482 - RR0 V150V.dat - pc
V151 13 28 25.40 -47 16 00.2 0.407784 14.42 0.42 - - RR0 - - out
V152 13 26 47.71 -47 29 28.4 124: 12.8 0.9 - - LT - - saturated
V153 13 26 49.69 -47 26 23.7 0.386245 14.38 0.42 0.426 - RR1 V153V.dat - GC140, pc
V154 13 27 03.15 -47 30 32.6 0.322340 14.46 0.15 0.319 - RR1 V154V.dat - pc
V155 13 26 53.63 -47 24 425 0.413925 14.33 0.41 0.428 - RR1 V155V.dat - GC145
V156 13 26 47.92 -47 31 52.5 0.359067 14.33 0.4 0.407 - RR1 V156V.dat - pc
V157 13 26 46.49 -47 27 17.5 0.4064 14.37 1468.63 0.41 - RR1 V157V.dat - GC138, pc
V158 13 26 45.34 -47 30 40.2 0.367276 14.34 0.35 0.38 - RR1 V158V.dat - GC135, pc
V159 13 23 24.44 -47 43 33.1 0.343101 14.39 0.57 - - RR1 - - out
V160 13 25 36.16 -47 12 32.5 0.397276 14.51 0.64 - - RR1 - - out
V161 13 26 36.85 -47 30 50.0 ? 13.3 0.5 - - irr - - saturated
V162 13 26 07.67 -47 32 54.1 70 12.9 0.7 - - LT - - saturated
V163 13 25 49.42 -47 20 21.5 0.313229 14.45 0.22 0.323 - RR1 V163V.dat -
V164 13 27 01.16 -47 20 40.7 37: 13.7 0.3 - - irr - - saturated
V165 13 26 39.44 -47 26 56.1 0.500765 13.91 1.16 0.45 - RR0 V165V.dat - Bl
V166 13 26 46.00 -47 26 15.3 0.340173 14.4: 0.2 0.438 - RR1 V166V.dat - GC142, mp
V167 13 26 11.56 -47 34 02.8 ? ? - - - irr - - saturated
V168 13 25 52.78 -47 32 02.9 0.321299 14.92 0.45 0.36 - RR1 V168V.dat - GC181
V169 13 27 20.47 -47 23 59.1 0.319116 14.53 0.23 0.276 - RR1 V169V.dat -
V170 13 25 21.41 -47 36 54.4 ? ? - - - irr - - out
V171 13 22 58.93 -46 47 24.8 ? ? - - - RR0 - - out
V172 13 27 55.14 -47 04 38.7 ? ? - - - RR0 - - out
V173 13 29 43.24 -47 16 54.1 ? ? - - - RR0 - - out
V174 13 28 10.22 -47 02 29.9 1.8984 ? - - - E? - - out
V175 13 22 23.02 -48 19 04.2 ? ? - - - ? - - out
V176 13 27 01.12 -47 29 47.4 - - - - - - - - not var
V177 13 29 04.27 -47 36 21.5 ? ? - - - RR0 - - out
V178 13 31 50.27 -47 18 22.4 ? ? - - - RR0 - - out
V179 13 23 45.51 -48 17 52.9 ? ? - - - RR0 - - out
V180 13 24 15.32 -47 40 32.4 ? ? - - - RR1 - - out
V181 13 30 00.45 -47 48 45.6 0.58836 ? - - - RR0 - - out
V182 13 32 13.42 -47 06 18.6 0.54539 ? - - - RR0 - - out
V183 13 29 39.55 -47 30 18.9 0.29605 ? - - - RR1 - - out
V184 13 27 28.50 -47 31 35.4 0.303370 14.55 0.22 0.312 - RR1 V184V.dat - GC191
V185 13 26 04.13 -47 21 45.0 0.33320 14.47 0.17 - - RR1 - - GC71, out
V186 13 26 05.41 -47 28 20.4 ? ? - - - LT - - saturated
V187 13 27 49.57 -47 32 57.3 - - - - - - - - NJL221, not var
V188 13 27 19.82 -47 30 17.9 - - - - - - - - NJL216, not var
V189 13 27 34.36 -47 29 34.8 - - - - - - - - NJL58, not var
V190 13 28 01.88 -47 26 11.1 - - - - - - - - NJL1, not var
V191 13 27 35.63 -47 23 03.3 - - - - - - - - NJL218, not var
V192 13 27 19.34 -47 21 52.2 1.376151 16.01 1.17 - - EA V192V.dat - NJL5,GC18
V193 13 27 07.03 -47 21 54.9 - - - - - - - - NJL212, not var
V194 13 27 53.94 -47 31 53.9 0.0471777 16.70 0.51 0.33 - SX V194V.dat - NJL220,GC50, mp
V195 13 27 15.64 -47 24 34.3 0.0654912 16.53 0.38 0.371 - SX V195V.dat - NJL79,GC5, mp
V196 13 25 01.10 -47 25 29.9 0.05740 16.86 0.23 - - SX - - GC42, out
V197 13 26 20.46 -47 31 59.2 0.0471210 16.78 0.13 0.546 - SX V197V.dat - GC1, mp
V198 13 26 34.56 -47 31 03.5 0.0481817 17.44 0.15 0.323 - SX V198V.dat - GC2
V199 13 26 28.66 -47 28 37.9 0.0622866 16.19 0.73 0.333 - SX V199V.dat - GC3
V200 13 27 06.92 -47 26 10.0 0.0495210 16.39 0.28 0.541 - SX V200V.dat - GC4, mp
V201 13 26 11.04 -47 15 53.9 0.05065 17.09 0.19 - - SX - - GC6, out
V202 13 26 38.85 -47 11 51.5 0.04642 17.11 0.12 - - SX - - GC7, out
V203 13 27 19.91 -47 15 21.1 0.04178 16.61 0.25 - - SX - - GC8, out
V204 13 27 07.96 -47 37 05.1 0.0493757 16.64 0.4 0.363 - SX V204V.dat - GC9, mp
V205 13 26 33.36 -47 23 00.0 0.368699 17.15 0.29 - - EA V205V.dat - GC10
V206 13 27 06.89 -47 36 02.8 0.307351 17.09 0.32 - - EW V206V.dat - GC11
V207 13 26 56.06 -47 23 17.6 0.275867 17.72 0.34 - - EW V207V.dat - GC12
V208 13 27 10.54 -47 26 06.9 0.305526 17.01 0.28 - - EW V208V.dat - GC13
V209 13 26 17.28 -47 23 16.8 0.834422 16.56 0.25 - - EA V209V.dat - GC14
V210 13 26 47.35 -47 36 00.1 1.496557 16.90 0.5 - - EA V210V.dat - GC15
V211 13 26 47.41 -47 23 16.0 0.576235 18.11 1.25 - - EA V211V.dat - GC16
V212 13 27 21.73 -47 23 32.6 2.466891 17.24 0.31 - - EA V212V.dat - GC17
V213 13 27 02.67 -47 08 49.1 0.39823 16.22 0.29 - - EW - - GC19, out
V214 13 27 21.82 -47 37 19.0 0.341804 16.54 0.16 - - EW V214V.dat - GC20
V215 13 26 30.08 -47 41 44.3 0.249260 17.86 0.19 - - EW - - GC21, out
V216 13 26 08.25 -47 30 32.2 23.737 15.08 0.07 0.85 - LT V216V.dat - GC22,GC95
V217 13 26 16.93 -47 27 25.3 0.053260 16.98 0.1 0.429 - SX V217V.dat - GC24
V218 13 26 11.22 -47 17 53.6 0.0437393 17.06 0.07 0.33 - SX V218V.dat - GC25, mp
V219 13 26 08.42 -47 19 24.2 0.0386681 17.26 0.08 0.337 - SX V219V.dat - GC26, mp
V220 13 26 48.64 -47 21 42.3 0.0528868 16.92 0.12 0.357 - SX V220V.dat - GC27, mp
V221 13 27 15.99 -47 21 48.7 0.0361336 16.66 0.05 0.451 - SX V221V.dat - GC28, mp
V222 13 26 18.45 -47 41 12.6 0.03891 17.28 0.05 - - SX - - GC29, out
V223 13 26 53.17 -47 18 22.6 23.695 14.88 0.27 1.215 - LT V223V.dat - GC30
V224 13 26 23.80 -47 19 12.8 37.886 15.12 0.04 0.879 - LT V224V.dat - GC31
V225 13 27 02.29 -47 24 36.5 0.0486381 16.72 0.22 0.393 - SX V225V.dat - GC32, mp
V226 13 26 10.49 -47 29 56.8 0.0378524 17.26 0.17 0.413 - SX V226V.dat - GC33, mp
V227 13 26 14.38 -47 23 53.7 0.0382255 17.24 0.05 0.397 - SX V227V.dat - GC34, mp
V228 13 26 40.48 -47 33 46.4 0.0398531 17.16 0.08 0.403 - SX V228V.dat - GC35, mp
V229 13 27 12.61 -47 23 58.8 0.0375333 17.36 0.09 0.295 - SX V229V.dat - GC36, mp
V230 13 26 25.29 -47 46 40.9 0.03388 16.56 0.03 - - SX - - GC37, out
V231 13 27 19.07 -47 35 53.8 0.037485 17.39 0.05 0.341 - SX V231V.dat - GC38,GC66, mp
V232 13 26 17.23 -47 11 49.9 0.03697 17.58 0.04 - - SX - - GC39, out
V233 13 26 47.30 -47 20 31.9 0.0365377 17.16 0.1 0.353 - SX V233V.dat - GC40, mp
V234 13 25 08.91 -47 30 24.9 1.62 16.62 0.09 - - ell - - GC41, out
V235 13 25 19.23 -47 22 31.3 1.09644 18.57 0.27 - - EW - - GC43, out
V236 13 25 52.15 -47 24 08.2 0.296318 17.20 0.25 0.26 - EW V236V.dat - GC44
V237 13 25 52.87 -47 23 55.7 0.0656024 16.69 0.27 0.351 - SX V237V.dat - GC45, mp
V238 13 27 33.98 -47 29 22.8 0.0408004 17.32 0.07 0.349 - SX V238V.dat - GC46, mp
V239 13 27 28.56 -47 29 21.8 1.188510 16.44 0.81 - - EA V239V.dat - GC47
V240 13 27 28.68 -47 26 19.5 0.331884 16.31 0.11 0.26 - EW V240V.dat - GC48
V241 13 27 36.22 -47 23 47.5 0.366276 18.55 0.77 - - EB V241V.dat - GC49
V242 13 27 45.13 -47 29 47.6 4.64042 17.08 0.26 - - EA V242V.dat - GC51, no eclipses
V243 13 28 23.28 -47 28 37.0 0.49519 18.38 0.62 - - EB - - GC53, out
V244 13 28 37.19 -47 34 29.0 0.28377 18.94 0.24 - - EW - - GC54, out
V245 13 28 32.82 -47 26 24.7 0.40389 17.21 0.64 - - EB - - GC55, out
V246 13 28 06.77 -47 45 33.8 0.28118 19.23 0.5 - - EW - - GC56, out
V247 13 28 08.31 -47 40 45.2 0.41783 16.95 0.14 - - EW - - GC57, out
V248 13 25 02.01 -47 24 15.7 0.41577 16.82 0.1 - - EW - - GC58, out
V249 13 25 46.28 -47 26 28.5 0.0349468 17.38 0.1 0.361 - SX V249V.dat - GC59, mp
V250 13 27 31.75 -47 35 41.6 0.0406269 17.39 0.07 0.38 - SX V250V.dat - GC60, mp
V251 13 27 28.02 -47 26 43.7 0.922473 16.17 0.04 - - EW V251V.dat - GC61
V252 13 27 29.73 -47 28 59.9 0.0466226 17.41 0.06 0.405 - SX V252V.dat - GC62
V253 13 27 22.15 -47 27 51.7 0.0399687 17.18 0.11 0.308 - SX V253V.dat - GC63, mp
V254 13 27 28.61 -47 27 39.0 0.385058 16.42 0.07 - - EW V254V.dat - GC64
V255 13 28 35.29 -47 23 57.3 0.51224 17.16 0.07 - - EW - - GC65, out
V256 - - - - - - - - - - same as V231
V257 13 25 04.92 -47 28 22.5 0.25064 17.52 0.17 - - EW - - GC67, out
V258 13 25 38.19 -47 25 37.7 0.654585 15.73 0.04 - - ell V258V.dat - GC68
V259 13 26 03.58 -47 29 30.6 19.12 15.69 0.03 0.756 - sp V259V.dat - GC69
V260 13 24 52.62 -47 25 22.2 0.04626 17.05 0.05 - - SX - - GC70, out
V261 13 27 15.41 -47 21 29.5 0.402512 14.5: 0.1 0.463 - RR1 V261V.dat - GC81, mp
V262 - - - - - - - - - - same as V216
V263 13 26 13.13 -47 26 09.7 1.012158 14.20 0.23 0.578 - RR0 V263V.dat - GC96
V264 13 26 39.66 -47 30 28.2 0.321398 14.55 0.41 0.349 - RR1 V264V.dat - GC108
V265 13 26 30.22 -47 28 45.2 0.4226 14.32 0.31 0.404 - RR1 V265V.dat - GC111, pc
V266 13 26 39.65 -47 28 01.7 0.352303 14.42 0.18 0.295 - RR1 V266V.dat - GC115
V267 13 26 40.23 -47 26 35.8 0.315822 14.37 0.24 0.351 - RR1 V267V.dat - GC121
V268 13 26 35.16 -47 26 10.9 0.812922 14.31 0.46 0.426 - RR0 V268V.dat - GC122
V269 13 26 31.55 -47 25 554 145 13.39 0.83 1.598 - LT V269V.dat - GC123
V270 13 26 56.57 -47 30 05.7 0.312714 14.45 0.19 0.307 - RR1 V270V.dat - GC131
V271 13 26 47.13 -47 30 04.1 0.4432 14.17 0.38 0.475 - RR1 V271V.dat - GC132, pc
V272 13 26 42.95 -47 25 566 0.311482 14.58 0.18 0.321 - RR1 V272V.dat - GC134
V273 13 26 54.34 -47 27 08.7 0.367106 14.42 0.26 0.4 - RR1 V273V.dat - GC139
V274 13 26 43.73 -47 22 48.2 0.311089 14.47 0.22 - - RR1 V274V.dat - GC148
V275 13 26 49.75 -47 27 37.3 0.3776 14.28 0.36 0.398 - RR1 V275V.dat - GC149, mp
V276 13 27 16.51 -47 33 17.6 0.307807 14.49 0.21 0.304 - RR1 V276V.dat - GC152, mp?
V277 13 26 59.97 -47 27 29.2 0.351563 14.46 0.09 0.383 - RR1 V277V.dat - GC155, mp?
V278 - - - - - - - - - - GC156, not var
V279 - - - - - - - - - - GC161, not var
V280 13 27 09.33 -47 23 05.7 0.281644 14.7: 0.1 0.259 - RR1 V280V.dat - GC162, mp
V281 13 27 06.29 -47 47 23.1 0.2850 14.60 0.07 - - RR1 - - GC167, out
V282 13 27 27.19 -47 47 32.4 0.5005 15.20 0.09 - - ? - - GC171, out
V283 13 27 36.43 -47 46 40.0 0.5173 17.44 1.08 - - RR0 - - GC172, out
V284 13 24 58.45 -47 36 08.2 3.3207 18.36 0.4 - - sp - - GC173, out
V285 13 25 40.20 -47 34 48.4 0.329014 14.45 0.19 0.347 - RR1 V285V.dat - GC177
V286 - - - - - - - - - - GC186, same as V94
V287 - - - - - - - - - - GC196 same as V169
V288 13 28 10.32 -47 23 47.8 0.2954 14.60 0.1 - - RR1 - - GC202, out
V289 13 28 03.68 -47 21 27.9 0.308090 14.50 0.25 0.285 - RR1 V289V.dat - GC203
V290 - - - - - - - - - - GC208, not var
V291 13 26 38.52 -47 33 28.0 0.3340 14.4: 0.2 0.377 - RR1 V291V.dat - GC209, mp
V292 13 27 08.46 -47 31 49.0 46.6 ? - - - SR - - saturated
V293 13 26 34.87 -47 34 10.9 98.8 ? - - - SR - - saturated
NV294 13 27 32.06 -47 25 03.5 0.01773359 17.28 0.02 0.328 - SX NV294V.dat - mp
NV295 13 27 27.71 -47 20 07.6 0.01823127 17.28 0.01 0.357 - SX NV295V.dat - mp
NV296 13 26 17.41 -47 18 15.8 0.02212644 16.93 0.03 0.365 - SX NV296V.dat - mp
NV297 13 26 43.78 -47 25 49.9 0.03389566 16.62 0.02 0.301 - SX NV297V.dat - mp
NV298 13 26 50.30 -47 34 03.3 0.0330389 17.37 0.08 0.354 - SX NV298V.dat - mp
NV299 13 27 00.31 -47 22 29.8 0.0344409 17.30 0.04 0.432 - SX NV299V.dat - mp
NV300 13 25 46.53 -47 24 00.4 0.0347301 17.47 0.02 0.363 - SX NV300V.dat -
NV301 13 27 25.23 -47 29 49.3 0.0354430 16.96 0.03 0.439 - SX NV301V.dat - mp
NV302 13 26 47.04 -47 25 44.4 0.035519 17.06 0.04 0.362 - SX NV302V.dat -
NV303 13 26 31.33 -47 31 01.9 0.035947 16.93 0.01 0.322 - SX NV303V.dat -
NV304 13 26 19.60 -47 20 01.2 0.0361405 17.22 0.03 0.421 - SX NV304V.dat -
NV305 13 27 51.50 -47 19 51.2 0.0365673 17.37 0.04 0.391 - SX NV305V.dat - mp
NV306 13 27 11.02 -47 28 24.2 0.0384044 17.50 0.06 0.37 - SX NV306V.dat - mp
NV307 13 27 03.02 -47 27 45.4 0.0385032 17.03 0.07 0.519 - SX NV307V.dat -
NV308 13 27 50.11 -47 21 15.8 0.0389852 17.25 0.05 0.382 - SX NV308V.dat - mp
NV309 13 26 20.15 -47 28 39.1 0.0397460 16.57 0.04 0.362 - SX NV309V.dat - mp
NV310 13 26 31.79 -47 31 56.9 0.0401778 16.78 0.02 0.415 - SX NV310V.dat - mp
NV311 13 26 58.70 -47 29 50.1 0.0414133 ? - - - SX NV311V.ad - mp
NV312 13 26 40.40 -47 29 11.2 0.041523 16.36 0.06 0.39 - SX NV312V.dat - mp
NV313 13 26 38.30 -47 31 36.9 0.0418484 17.59 0.16 0.348 - SX NV313V.dat -
NV314 13 27 08.92 -47 30 08.3 0.0421220 17.04 0.08 0.386 - SX NV314V.dat - mp
NV315 13 26 46.03 -47 24 57.9 0.0422811 16.34 0.1 0.518 - SX NV315V.dat - mp
NV316 13 26 14.87 -47 31 10.3 0.0424040 17.31 0.03 0.326 - SX NV316V.dat -
NV317 13 28 06.01 -47 17 30.7 0.0426396 16.94 0.05 0.453 - SX NV317V.dat - mp
NV318 13 26 28.68 -47 25 59.7 0.0437304 16.79 0.02 0.472 - SX NV318V.dat -
NV319 13 26 28.55 -47 31 02.4 0.0489421 17.18 0.1 0.465 - SX NV319V.dat -
NV320 13 26 49.45 -47 34 28.5 0.0471934 17.25 0.08 0.44 - SX NV320V.dat -
NV321 13 26 44.55 -47 27 54.1 0.0474855 16.34 0.13 0.136 - SX NV321V.dat - mp
NV322 13 26 38.88 -47 27 38.6 0.0479562 17.06 0.08 - - SX NV322V.dat - mp
NV323 13 26 43.38 -47 25 04.8 0.0493547 16.62 0.03 0.431 - SX NV323V.dat - mp
NV324 13 26 18.15 -47 30 34.6 0.0512944 16.26 0.24 0.297 - SX NV324V.dat - mp
NV325 13 26 35.08 -47 30 08.6 0.0535445 16.35 0.1 0.501 - SX NV325V.dat - mp
NV326 13 26 40.24 -47 24 55.4 0.0569058 16.94 0.18 0.401 - SX NV326V.dat - mp
NV327 13 26 45.21 -47 26 34.0 0.0606414 16.59 0.09 0.274 - SX NV327V.dat - mp
NV328 13 27 01.29 -47 31 49.3 0.0899030 17.04 0.02 0.598 - SX NV328V.dat -
NV329 13 26 46.70 -47 26 31.6 0.196509 ? - - - EW? NV329V.ad -
NV330 13 26 52.06 -47 24 46.4 0.219336 ? - - - EW NV330V.dat -
NV331 13 26 35.15 -47 26 06.3 0.221344 18.06 0.12 - - EW NV331V.dat -
NV332 13 26 08.24 -47 31 26.5 0.247398 17.73 0.06 - - EW NV332V.dat -
NV333 13 27 10.44 -47 28 43.3 0.255252 ? - - - EW NV333V.ad -
NV334 13 27 23.39 -47 29 11.9 0.257881 18.64 0.25 - - EW NV334V.dat -
NV335 13 27 13.59 -47 17 20.4 0.266634 17.36 0.29 - - EW NV335V.dat -
NV336 13 25 52.03 -47 32 58.8 0.267222 17.66 0.25 - - EW NV336V.dat -
NV337 13 27 13.82 -47 32 24.4 0.269451 17.65 0.17 - - EW? NV337V.dat - sdB?
NV338 13 26 41.59 -47 31 30.3 0.295186 17.70 0.36 - - EB NV338V.dat -
NV339 13 26 29.67 -47 29 51.8 0.301322 14.44 0.11 0.376 - RR1 NV339V.dat - mp
NV340 13 26 38.95 -47 27 32.5 0.301821 14.47 0.17 - - RR1 NV340V.dat - mp
NV341 13 26 54.61 -47 28 47.7 0.306136 14.33 0.26 0.362 - RR1 NV341V.dat -
NV342 13 27 18.69 -47 28 22.9 0.308389 14.49 0.23 0.337 - RR1 NV342V.dat - mp
NV343 13 26 47.79 -47 29 36.8 0.310211 14.43 0.27 0.379 - RR1 NV343V.dat -
NV344 13 26 38.09 -47 24 44.7 0.313764 14.57 0.08 0.331 - RR1 NV344V.dat -
NV345 13 26 36.90 -47 29 38.8 0.314570 17.35 0.13 - - EB NV345V.dat -
NV346 13 26 46.93 -47 28 14.1 0.327623 14.32 0.36 0.349 - RR1 NV346V.dat -
NV347 13 26 50.88 -47 27 46.2 0.328849 14.26 0.44 0.373 - RR1 NV347V.dat -
NV348 13 26 44.19 -47 27 38.8 0.347026 16.52 0.36 - - EW NV348V.dat -
NV349 13 26 51.80 -47 27 43.9 0.364200 ? - - - RR1 NV349V.ad -
NV350 13 26 56.40 -47 30 50.2 0.379108 14.29 0.42 0.372 - RR1 NV350V.dat -
NV351 13 26 42.66 -47 27 35.4 0.385553 ? - - - RR1 NV351V.ad - mp
NV352 13 26 54.35 -47 29 11.3 0.397544 14.04 0.3 0.291 - RR1 NV352V.dat -
NV353 13 26 43.79 -47 27 56.6 0.40102 14.30 0.41 0.294 - RR1 NV353V.dat - mp
NV354 13 26 38.63 -47 25 09.9 0.419934 14.34 0.42 0.424 - RR1 NV354V.dat -
NV355 13 26 28.04 -47 28 33.2 0.44666 17.50 0.26 - - EB NV355V.dat -
NV356 13 26 41.34 -47 28 02.6 0.46471 ? - - - EA NV356V.ad -
NV357 13 26 17.77 -47 30 23.4 0.297775 14.54 0.05 0.339 - RR1 NV357V.dat -
NV358 13 27 20.18 -47 31 48.8 0.59964 17.07 0.35 - - EA NV358V.dat -
NV359 13 26 52.79 -47 27 13.6 0.604019 ? - - - EA NV359V.ad -
NV360 13 26 02.06 -47 32 23.6 0.63081 17.08 0.04 - - ell? NV360V.dat -
NV361 13 27 17.81 -47 26 34.1 0.68179 18.20 0.17 - - EA NV361V.dat -
NV362 13 27 29.47 -47 21 03.4 0.73602 20.07 0.6 - - EA NV362V.dat -
NV363 13 26 22.76 -47 21 42.6 0.82373 17.86 0.27 - - EA NV363V.dat -
NV364 13 26 56.22 -47 26 10.8 0.84724 16.29 0.43 - - EA NV364V.dat -
NV365 13 27 11.63 -47 35 02.1 0.94036 15.25 0.1 - - EB NV365V.dat -
NV366 13 26 41.56 -47 31 42.0 0.99991 13.94 0.46 0.478 - RR0 NV366V.dat -
NV367 13 27 27.69 -47 19 07.1 1.01378 14.68 0.07 1.536 - ? NV367V.dat -
NV368 13 25 43.21 -47 19 13.1 1.15252 15.08 0.03 1.214 - ? NV368V.dat -
NV369 13 27 21.60 -47 32 05.8 1.78832 16.07 0.04 0.494 - ? NV369V.dat -
NV370 13 25 36.78 -47 17 55.4 2.17029 14.33 0.05 0.809 - ? NV370V.dat -
NV371 13 26 41.09 -47 27 37.4 2.1975 15.88 0.15 0.866 - ? NV371V.dat -
NV372 13 27 49.66 -47 23 43.0 2.6489 18.73 0.1 1.516 - ? NV372V.dat -
NV373 13 26 07.57 -47 23 05.6 3.1698 19.08 0.26 0.743 - ? NV373V.dat -
NV374 13 26 24.39 -47 22 21.9 3.3111 16.10 0.04 0.165 - ? NV374V.dat -
NV375 13 25 52.09 -47 19 08.2 3.3462 14.73 0.13 1.462 - ? NV375V.dat -
NV376 13 25 52.82 -47 28 52.7 6.7533 17.40 0.27 1.208 - ? NV376V.dat -
NV377 13 27 10.10 -47 21 27.4 3.639 15.82 0.11 0.941 - irr NV377V.dat -
NV378 13 26 38.53 -47 19 59.5 2.0711 14.70 0.18 - - EA NV378V.dat -
NV379 13 26 18.83 -47 21 09.6 7.104 16.19 0.06 0.837 - ? NV379V.dat -
NV380 13 26 22.59 -47 30 52.2 7.832 17.18 0.05 0.025 - ? NV380V.dat -
NV381 13 25 40.47 -47 22 24.2 8.071 15.13 0.01 0.961 - ? NV381V.dat -
NV382 13 26 40.25 -47 19 49.1 8.218 17.23 0.06 0.831 - ? NV382V.dat -
NV383 13 27 08.43 -47 20 28.4 8.632 16.74 0.76 1.087 - ? NV383V.dat -
NV384 13 25 49.82 -47 36 59.9 9.527 16.76 0.43 1.078 - ? NV384V.dat -
NV385 13 27 04.08 -47 38 04.6 10.106 17.35 0.05 0.693 - ? NV385V.dat -
NV386 13 26 31.44 -47 27 24.4 14.476 14.08 0.07 0.742 - ? NV386V.dat -
NV387 13 26 27.66 -47 28 49.7 14.706 18.45 0.15 - - ? NV387V.dat -
NV388 13 25 40.55 -47 28 02.2 14.90 14.10 0.01 0.777 - ? NV388V.dat -
NV389 13 25 31.08 -47 29 49.4 15.19 17.05 0.08 0.975 - ? NV389V.dat -
NV390 13 27 24.45 -47 25 11.8 15.71 14.10 0.05 0.936 - ? NV390V.dat -
NV391 13 27 10.56 -47 36 59.4 60: ? - - - ? NV391V.ad -
NV392 13 26 44.26 -47 35 19.0 56.1 ? - - - ? NV392V.ad -
NV393 13 26 48.97 -47 38 00.5 30.54 15.48 0.04 0.892 - SR NV393V.dat -
NV394 13 26 55.57 -47 34 22.8 ? ? - - - LT NV394V.ad -
NV395 13 26 46.35 -47 29 30.9 149 ? - - - ? NV395V.ad -
NV396 13 26 17.57 -47 37 27.7 ? 15.16 0.34 - - LT NV396V.dat -
NV397 13 26 41.35 -47 26 08.0 0.273604 16.09 0.02 0.842 - ? NV397V.dat -
NV398 13 26 41.05 -47 24 57.9 0.303693 16.32 0.04 0.273 - ? NV398V.dat -
NV399 13 26 29.53 -47 30 02.6 0.309782 14.55 0.05 0.268 - RR1 NV399V.dat - mp
NV400 13 26 10.09 -47 31 50.3 0.318537 16.56 0.01 0.175 - ? NV400V.dat -
NV401 13 26 09.02 -47 31 47.7 0.353938 17.72 0.06 0.337 - ? NV401V.dat -
NV402 13 26 47.72 -47 36 30.1 0.520142 17.59 0.04 0.442 - ? NV402V.dat -
NV403 13 27 57.40 -47 26 51.0 0.55546 17.15 0.04 0.446 - ? NV403V.dat -
NV404 13 26 21.93 -47 26 05.2 5.165 17.36 0.05 -0.005 - ? NV404V.dat -
NV405 13 27 26.88 -47 25 44.9 0.86288 17.38 0.02 0.727 - ? NV405V.dat -
NV406 13 27 42.15 -47 23 34.5 ? 15.58 0.16 - - EA? NV406V.dat -
NV407 13 27 30.02 -47 22 31.9 ? 19.16 0.85 - - EA? NV407V.dat -
NV408 13 26 26.61 -47 26 35.1 ? ? - - - CV? NV408V.ad -
NV409 13 26 38.80 -47 21 39.8 ? 16.34 0.16 - - EA? NV409V.dat -
NV410 13 27 21.68 -47 29 21.2 14.507 14.49 0.02 0.904 - ? NV410V.dat -
a Proper motion membership status — Y - member, N - field star, U - uncertain
b Variable type

EW - contact binary; EB - close ecppsing binary; EA - detached ecppsing binary;

RR0 - fundamental mode RR Lyr star (RRab); RR1 - 1st overtone RR Lyr star (RRc);

SX - SX-Phenicis type pulsator; C - population II Cepheid;

CV - candidate cataclismic variable; sdB - hot subdwarf;

ell - candidate ellipsoidal variable; irr - irregular light curve; SR - semi-regular variable; sp - candidate spotted variable;

BL - BL Her type star; LT - long-term irregular or long-period variable; RV - RV Tauri type star;

c Data columns:
  1. HJD - 2 450 000.0
  2. V magnitude
  3. error of magnitude (dummy points are maked with the error=9.999)



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