Peremennye Zvezdy

Article in PDF
"Peremennye Zvezdy",
Prilozhenie,
vol. 13, N 16 (2013)

New Variable Stars II

A. V. Khruslov
Institute of Astronomy, Russian Academy of Sciences, Moscow, Russia

ISSN 2221–0474

Received:   12.04.2013;   accepted:   5.12.2013
(E-mail for contact: khruslov@bk.ru)

#NameOtherCoord (J2000)TypeMaxMinSystemPeriodEpoch (JD)typeSpCommentL.CurveFind.ChartData
1 GSC 2952-0031607 11 49.46, +42 47 22.3EW12.2312.45SWASP0.5080202454438.566min Comm. 11.PNGchart1.PNGNSVS 4695775 1SWASP_data_1.txt
2 GSC 3396-0211907 13 04.99, +48 31 51.2EW14.1915.02CV0.34595042455000.698min Comm. 22.PNGchart2.PNGNSVS 4662315 CSS_data_2.txt 1SWASP_data_2.txt
3 GSC 2956-0035707 14 04.77, +44 38 44.3EA13.6514.28CV2.12073952455528.02min Comm. 33.PNGchart3.PNGNSVS 4698298 NSVS 4662087 CSS_data_3.txt 1SWASP_data_3.txt
4 GSC 3392-0022107 14 31.54, +46 20 26.3LB12.312.55R  other Comm. 44.PNGchart4.PNGNSVS 4662853 NSVS 4699196
5 GSC 3400-0039607 14 51.77, +49 56 49.5EW13.5813.85CV0.8177602454800.855min Comm. 55.PNGchart5.PNGNSVS 4663861 CSS_data_5.txt 1SWASP_data_5.txt
6 USNO-A2.0 1275-0682787807 14 56.50, +43 29 03.9EA13.5914.01CV0.9268172455005.905min Comm. 66.PNGchart6.PNGNSVS 4698686 CSS_data_6.txt 1SWASP_data_6.txt
7 GSC 2948-0084307 17 51.98, +40 58 26.7EB or ELL12.9513.08SWASP1.151402454404.64min Comm. 77.PNGchart7.PNGNSVS 4700452 CSS_data_7.txt 1SWASP_data_7.txt
8 GSC 2956-0084007 18 11.53, +44 06 48.0EB13.013.25R1.508272454501.532min Comm. 88.PNGchart8.PNGNSVS 4701504 1SWASP_data_8.txt
9 GSC 3405-0033007 19 23.67, +51 40 42.4EW13.2013.75CV0.32209372454800.735min Comm. 99.PNGchart9.PNGNSVS 2330003 NSVS 2404677 NSVS 4667015 CSS_data_9.txt 1SWASP_data_9.txt
10 TYC 3401 00730 107 21 37.82, +49 32 52.6RS11.2311.44SWASP0.448792454501.515max Comm. 1010.PNGchart10.PNGNSVS 4668125 1SWASP_data_10.txt
11 USNO-A2.0 1275-0688804707 22 29.87, +41 03 16.9EW or ELL13.5913.71CV0.25114282454500.530min Comm. 1111.PNGchart11.PNGNSVS 4704251 CSS_data_11.txt 1SWASP_data_11.txt
12 GSC 2965-0156907 23 12.57, +42 33 37.3EB13.4713.90CV0.4406722455000.805min Comm. 1212.PNGchart12.PNGNSVS 4705117 CSS_data_12.txt 1SWASP_data_12.txt
13 GSC 2961-0055007 23 33.62, +40 58 32.8EW12.4112.53SWASP0.6565842454100.741min Comm. 1313.PNGchart13.PNGNSVS 4705093 1SWASP_data_13.txt
14 GSC 3397-0003107 24 12.06, +48 43 01.4EW13.9014.24CV0.7929062454800.702min Comm. 1414.PNGchart14.PNGNSVS 4669625 CSS_data_14.txt 1SWASP_data_14.txt
15 GSC 3405-0034907 25 30.12, +50 56 48.8EW or ELL12.9913.16CV0.3406172454500.621min Comm. 1515.PNGchart15.PNGNSVS 4670593 CSS_data_15.txt 1SWASP_data_15.txt
16 GSC 3405-0082307 27 24.78, +51 28 34.5LB9.559.9R  other Comm. 1616.PNGchart16.PNGNSVS 2409517 NSVS 4671682
17 GSC 2961-0102307 28 19.66, +41 13 58.5EW13.0913.25CV0.6720272454801.610min Comm. 1717.PNGchart17.PNGNSVS 4708762 CSS_data_17.txt 1SWASP_data_17.txt
18 GSC 2966-0044107 30 08.31, +42 44 11.9EA13.3013.61CV0.7470662454800.866min Comm. 1818.PNGchart18.PNGNSVS 4710189 CSS_data_18.txt 1SWASP_data_18.txt
19 GSC 2966-0062407 30 13.51, +41 47 13.0EW13.8914.44CV0.4556552454800.662min Comm. 1919.PNGchart19.PNGNSVS 4710186 CSS_data_19.txt 1SWASP_data_19.txt
20 GSC 3409-0195307 34 12.77, +48 18 33.6EW13.7914.40CV0.37111482454800.697min Comm. 2020.PNGchart20.PNGNSVS 4675247 NSVS 4745054 CSS_data_20.txt 1SWASP_data_20.txt
21 GSC 3409-0117007 36 47.12, +49 20 44.1EW13.0713.43CV0.5584802455000.535min Comm. 2121.PNGchart21.PNGNSVS 4746456 CSS_data_21.txt 1SWASP_data_21.txt
22 GSC 2966-0045207 39 47.06, +42 56 39.3EW13.9714.41CV0.33900022454400.515min Comm. 2222.PNGchart22.PNGNSVS 4716668 CSS_data_22.txt 1SWASP_data_22.txt
23 GSC 3409-0127207 41 17.79, +49 28 43.3EW13.4213.65CV0.2719392454800.724min Comm. 2323.PNGchart23.PNGNSVS 4749056 CSS_data_23.txt 1SWASP_data_23.txt
24 TYC 3412 02040 107 42 08.93, +51 33 18.1EA11.7211.95R1.993182451551.84min Comm. 2424.PNGchart24.PNGNSVS 4749317 NSVS 2418495 CSS_data_24.txt 1SWASP_data_24.txt
25 GSC 2967-0022707 44 26.10, +41 43 07.2EA13.9014.35CV0.45664152454800.558min Comm. 2525.PNGchart25.PNGNSVS 4720070 CSS_data_25.txt 1SWASP_data_25.txt
26 GSC 2967-0006107 45 52.78, +42 03 43.0EA13.9214.51CV1.834092454801.535min Comm. 2626.PNGchart26.PNGNSVS 4721050 CSS_data_26.txt 1SWASP_data_26.txt
27 TYC 2971 01335 107 46 17.85, +44 24 18.5RRC11.4511.85R0.3395972451500.565max Comm. 2727.PNGchart27.PNGNSVS 4721054 NSVS 4752748 1SWASP_data_27.txt
28 GSC 3410-0101707 46 58.14, +47 46 19.0EA13.3514.07CV1.2487852454438.60min Comm. 2828.PNGchart28.PNGNSVS 4752612 CSS_data_28.txt 1SWASP_data_28.txt
29 GSC 3410-0042007 47 10.94, +48 53 18.0EB13.1313.36CV0.7363102455000.530min Comm. 2929.PNGchart29.PNGNSVS 4752549 CSS_data_29.txt 1SWASP_data_29.txt
30 GSC 2963-0018407 47 50.30, +41 05 21.9EW13.3313.93CV0.29216552454800.591min Comm. 3030.PNGchart30.PNGNSVS 4722568 CSS_data_30.txt 1SWASP_data_30.txt
31 GSC 3413-0247707 48 33.47, +50 50 45.2EA12.9513.45SWASP1.3236252454532.417min Comm. 3131.PNGchart31.PNGNSVS 4753019 CSS_data_31.txt 1SWASP_data_31.txt
32 TYC 3407 01014 107 48 47.33, +45 46 43.6EW12.1712.25SWASP0.25245722454501.411min Comm. 3232.PNGchart32.PNGNSVS 4754104 NSVS 4722561 1SWASP_data_32.txt
33 GSC 2967-0122307 49 12.02, +41 30 39.1EB:14.0914.24CV4.92562455004.18min Comm. 3333.PNGchart33.PNGCSS_data_33.txt 1SWASP_data_33.txt
34 GSC 3410-0026507 49 28.64, +49 20 25.1EW13.9514.58CV0.4030452455000.745min Comm. 3434.PNGchart34.PNGNSVS 4753845 CSS_data_34.txt 1SWASP_data_34.txt
35 GSC 3407-0112107 50 11.01, +47 13 54.7EW:13.5813.91CV0.27838452454800.646min Comm. 3535.PNGchart35.PNGNSVS 4754701 CSS_data_35.txt 1SWASP_data_35.txt
36 GSC 3407-0208607 51 45.37, +46 02 54.4SRD11.912.1R672451575max Comm. 3636.PNGchart36.PNGNSVS 4724463 NSVS 4755923
37 TYC 3407 01934 107 53 55.56, +46 20 26.5EA12.1012.80SWASP4.072372454438.655min Comm. 3737.PNGchart37.PNGNSVS 4725841 NSVS 4757224 1SWASP_data_37.txt
38 GSC 2968-0025307 54 19.51, +43 02 11.6EB13.1613.60CV0.5643962454800.938min Comm. 3838.PNGchart38.PNGNSVS 4726826 CSS_data_38.txt 1SWASP_data_38.txt
39 TYC 3407 01832 107 55 38.23, +45 58 49.8EA11.2811.54SWASP1.0304712454501.577min Comm. 3939.PNGchart39.PNGNSVS 4727074 NSVS 4758366 1SWASP_data_39.txt
40 GSC 3410-0145107 56 42.28, +47 39 18.1EA13.1213.68CV1.0323912455178.778min Comm. 4040.PNGchart40.PNGNSVS 4758580 CSS_data_40.txt 1SWASP_data_40.txt
41 GSC 3410-0227307 56 54.92, +47 46 23.1EW13.3813.59CV0.6631532455000.775min Comm. 4141.PNGchart41.PNGNSVS 4758659 CSS_data_41.txt 1SWASP_data_41.txt
42 GSC 3410-0213107 57 22.51, +48 07 18.6SRD12.212.35R35.12451518min Comm. 4242.PNGchart42.PNGNSVS 4758841
43 GSC 3407-0290207 57 49.06, +46 16 23.3EB13.5613.78CV0.9193642454805.898min Comm. 4343.PNGchart43.PNGNSVS 4759638 NSVS 4728437 CSS_data_43.txt 1SWASP_data_43.txt
44 GSC 3410-0189807 58 28.71, +49 04 10.0SRD11.712.0R30.62451517max Comm. 4444.PNGchart44.PNGNSVS 4759231
45 GSC 3410-0253007 58 34.01, +48 59 14.1SRD12.212.45R68.12451520max Comm. 4545.PNGchart45.PNGNSVS 4759298 1SWASP_data_45.txt
46 GSC 2972-0092607 58 56.88, +44 52 53.1EW13.4613.84CV0.31161532454800.752min Comm. 4646.PNGchart46.PNGNSVS 4729528 NSVS 4760762 CSS_data_46.txt 1SWASP_data_46.txt
47 TYC 2964 01200 107 59 46.38, +41 04 35.7EW11.712.2CV0.4142032454500.513min Comm. 4747.PNGchart47.PNGNSVS 4731134 CSS_data_47.txt 1SWASP_data_47.txt
48 TYC 3414 02129 108 02 23.47, +51 46 44.9EW12.6612.83SWASP0.4891152454501.473min Comm. 4848.PNGchart48.PNGNSVS 4760603 NSVS 4775028 1SWASP_data_48.txt
49 GSC 3411-0084208 02 24.05, +48 09 05.2EW14.0614.47CV0.31941852455000.755min Comm. 4949.PNGchart49.PNGNSVS 4761861 NSVS 4773472 CSS_data_49.txt 1SWASP_data_49.txt
50 TYC 3414 02292 1, BD+52 127008 02 30.46, +51 54 11.0EB10.0410.19SWASP0.5133042454504.394minF5Comm. 5050.PNGchart50.PNGNSVS 2428574 NSVS 2428853 NSVS 4760636 NSVS 4775132 1SWASP_data_50.txt
51 GSC 3414-0162108 03 27.29, +50 39 48.9EA13.7014.18CV2.747342454553.42min Comm. 5151.PNGchart51.PNGNSVS 4761617 NSVS 4775059 CSS_data_51.txt 1SWASP_data_51.txt
52 GSC 2979-0113508 04 52.63, +44 07 23.5EW13.1613.54CV0.2459682454800.723min Comm. 5252.PNGchart52.PNGNSVS 4733654 NSVS 4773131 NSVS 4798888 CSS_data_52.txt 1SWASP_data_52.txt
53 GSC 3414-0135308 06 04.64, +50 20 42.8EW or ELL13.2513.43CV0.6824292455001.772min Comm. 5353.PNGchart53.PNGNSVS 4763117 NSVS 4776244 CSS_data_53.txt 1SWASP_data_53.txt
54 GSC 3408-0262708 06 22.03, +46 17 15.7LB10.711.25R  other Comm. 5454.PNGchart54.PNGNSVS 4733878 NSVS 4764632 NSVS 4774738 1SWASP_data_54.txt
55 GSC 2976-0065308 07 48.75, +42 03 57.9EA13.6314.28CV2.116602454805.534min Comm. 5555.PNGchart55.PNGNSVS 4736204 NSVS 4799547 CSS_data_55.txt 1SWASP_data_55.txt
56 TYC 3408 00557 108 08 39.87, +46 43 28.7LB9.459.75R  other Comm. 5656.PNGchart56.PNGNSVS 4765747 NSVS 4776145 1SWASP_data_56.txt
57 GSC 2979-0124808 11 36.37, +43 38 23.7EA13.4614.05CV0.45417832454524.405min Comm. 5757.PNGchart57.PNGNSVS 4738029 NSVS 4802332 CSS_data_57.txt 1SWASP_data_57.txt
58 GSC 2976-0165908 12 27.71, +42 11 40.7EW or ELL13.1213.21SWASP0.3282242454500.624min Comm. 5858.PNGchart58.PNGNSVS 4739090 NSVS 4802309 CSS_data_58.txt 1SWASP_data_58.txt
59 GSC 2980-0110908 13 55.14, +43 25 26.5EW14.1214.61CV0.27360822455000.743min Comm. 5959.PNGchart59.PNGNSVS 4739509 NSVS 4803616 CSS_data_59.txt 1SWASP_data_59.txt
60 GSC 3414-0058108 14 42.89, +51 43 06.1EW13.2113.49CV0.4006952455000.739min Comm. 6060.PNGchart60.PNGNSVS 4766940 NSVS 4781254 CSS_data_60.txt 1SWASP_data_60.txt
61 GSC 3421-0081208 15 29.11, +51 30 02.3RS12.7512.84SWASP0.297342454500.721max Comm. 6161.PNGchart61.PNGNSVS 4767382 NSVS 4781586 1SWASP_data_61.txt
62 GSC 3418-0110408 16 36.36, +47 50 42.8EW13.2813.42SWASP0.4562122454500.898min Comm. 6262.PNGchart62.PNGNSVS 4769381 NSVS 4780968 CSS_data_62.txt 1SWASP_data_62.txt
63 GSC 3415-0005908 21 41.70, +46 20 53.9SRD12.713.0SWASP33.502454542max Comm. 6363.PNGchart63.PNGNSVS 4772264 NSVS 4783381 CSS_data_63.txt 1SWASP_data_63.txt
64 GSC 3421-0120308 24 33.54, +51 24 40.8EW12.713.2CV0.34651862454500.817min Comm. 6464.PNGchart64.PNGNSVS 4786218 NSVS 2439413 NSVS 4771467 CSS_data_64.txt 1SWASP_data_64.txt
65 GSC 2977-0145808 24 45.87, +40 31 31.8EW13.5413.91CV0.2982262454500.516min Comm. 6565.PNGchart65.PNGNSVS 4809089 CSS_data_65.txt 1SWASP_data_65.txt
66 GSC 3418-0178908 27 41.93, +47 41 29.1SR12.012.45R592451555max Comm. 6666.PNGchart66.PNGNSVS 4787055
67 GSC 2978-0082208 27 51.47, +41 47 18.7BY13.5613.91CV13.012454403.5max Comm. 6767.PNGchart67.PNGNSVS 4811120 CSS_data_67.txt 1SWASP_data_67.txt
68 GSC 2978-0062208 27 55.83, +40 56 27.8EW13.4413.85CV0.2963612454800.610min Comm. 6868.PNGchart68.PNGNSVS 4811002 CSS_data_68.txt 1SWASP_data_68.txt
69 TYC 2978 00275 108 30 47.93, +41 22 23.0LB9.6610.25R  other Comm. 6969.PNGchart69.PNGNSVS 4812785 1SWASP_data_69.txt
70 GSC 2978-0080408 32 30.08, +42 14 00.2EW or ELL12.5112.69SWASP0.4249272454300.654min Comm. 7070.PNGchart70.PNGNSVS 4813919 1SWASP_data_70.txt
71 TYC 3419 00330 108 35 50.48, +48 00 51.8BY12.212.3SWASP2.4052454501.8min Comm. 7171.PNGchart71.PNGNSVS 4791430 1SWASP_data_71.txt
72 TYC 3416 01142 108 36 20.91, +46 26 23.4SRD11.3511.5R50.162451553max Comm. 7272.PNGchart72.PNGNSVS 4791523 NSVS 4816488 1SWASP_data_72.txt
73 GSC 2978-0090608 37 53.51, +42 06 56.0EW13.0013.17SWASP0.3453232454500.708min Comm. 7373.PNGchart73.PNGNSVS 4816828 CSS_data_73.txt 1SWASP_data_73.txt
74 GSC 3422-0139708 40 06.67, +50 18 25.4EW14.4815.06CV0.29167162455000.699min Comm. 7474.PNGchart74.PNGNSVS 4793644 CSS_data_74.txt 1SWASP_data_74.txt
75 TYC 2985 00960 108 43 28.53, +40 22 47.5EB12.2012.32SWASP1.0229722454150.217min Comm. 7575.PNGchart75.PNGNSVS 4819589 1SWASP_data_75.txt
76 GSC 2988-0133808 44 59.81, +44 51 44.6BY:12.7512.9SWASP4.80732454501.61min Comm. 7676.PNGchart76.PNGNSVS 4795650 NSVS 4820485 1SWASP_data_76.txt

Comments:


1. MinII = 12m.37: (1SWASP). From ROTSE-I/NSVS data, 12m.18–12m.37, MinII = 12m.31 in the R band.

2. MinII = 14m.96 (CV). From 1SWASP data, 14m.4–15m.6 (1SWASPmag); from ROTSE-I/NSVS data, 14m.5–15m.3 in the R band. The ROTSE data with photometric correction flags were kept for the analysis.

3. D = 0.07 P. 13m.6–14m.0 (R, NSVS). Combined brightness of three stars: GSC 2956-00357 (= var), USNO-A2.0 1275-06820889, and USNO-A2.0 1275-06820690 was measured in NSVS and 1SWASP data, the measured amplitudes are considerably underestimated.

4. J–K = 1.195 (2MASS). The SWASP data confirm the irregular variability of this variable (1SWASP J071431.54+462026.4).

5. MinII = 13m.83 (CV). From 1SWASP data, 13m.8–14m.05; from ROTSE-I/NSVS data, 13m.85–14m.05 in the R band. The ROTSE data with photometric correction flags were kept for the analysis.

6. D = 0.16 P. MinII = 14m.01 (CV). From 1SWASP data, 14m.0–14m.45; from ROTSE-I/NSVS data, 13m.95–14m.45 in the R band.

7. MinII = 13m.08 (1SWASP). From ROTSE-I/NSVS data, 12m.95–13m.1 in the R band; from CSS data, 12m.75:–12m.9: in the CV band.

8. MinII = 13m.2 (R). From 1SWASP data, 13m.2–13m.4, MinII = 13m.3 .

9. MinII = 13m.69 (CV). From 1SWASP data 13m.7–14m.2; from ROTSE-I/NSVS data, 13m.55–13m.95 in the R band.

10. J–K = 0.687 (2MASS), B–V = 1.453 (Tycho2). 1RXS J072141.1+493257. From ROTSE-I/NSVS data, 11m.1–11m.3 in the R band. According to NSVS data, the light elements are: JD(max) 2451500.695 + 0.44867×E. The light curve shape possibly varies.

11. MinII = 13m.71 (CV). From 1SWASP data, 13m.70–13m.80; from ROTSE-I/NSVS data, 13m.5–13m.6 in the R band. Combined brightness of two stars, USNO-A2.0 1275-06888047 and USNO-A2.0 1275-06887689, was measured in the NSVS.

12. MinII = 13m.69 (CV). From 1SWASP data, 13m.43–13m.66; from ROTSE-I/NSVS data, 13m.05–13m.15 in the R band. Combined brightness of two stars, GSC 2965-01569 (=var) and GSC 2965-01608, was measured in the NSVS and 1SWASP, the tabulated amplitudes are considerably underestimated. The star has a faint close companion 2MASS 07231301+4233386, unresolved in the CSS.

13. MinII = 12m.52 (1SWASP). From ROTSE-I/NSVS data, 12m.56–12m.75, MinII = 12m.74 in the R band. The ROTSE data with photometric correction flags were kept for the analysis.

14. MinII = 14m.21 (CV). From 1SWASP data, 14m.15–14m.5; from ROTSE-I/NSVS data, 14m.2–14m.7: in the R band.

15. MinII = 13m.15 (CV). From 1SWASP data, 13m.48–13m.62; from ROTSE-I/NSVS data, 13m.25–13m.4 in the R band. According to NSVS data, the light elements are: JD(min) 2451500.578 + 0.34062×E. The ROTSE data with photometric correction flags were kept for the analysis.

16. J–K = 1.303 (2MASS). IRAS 07235+5134. The ROTSE data with photometric correction flags were kept for the analysis. Type SR is also not excluded.

17. MinII = 13m.24 (CV). From 1SWASP data, 12m.87–12m.98, MinII = 12m.95; from ROTSE-I/NSVS data, 12m.95–13m.05 in the R band.

18. D = 0.13 P. MinII = 13m.40 (CV) From 1SWASP data, 13m.75–14m.1, MinII = 13m.85; from ROTSE-I/NSVS data, 13m.6–13m.95 in the R band. According to NSVS data, the light elements are: JD(min) 2451501.870 + 0.74707×E. The ROTSE data with photometric correction flags were kept for the analysis.

19. MinII = 14m.38 (CV). From 1SWASP data, 14m.5–15m.05, MinII = 15m.0; from ROTSE-I/NSVS data, 14m.3–14m.9 in the R band.

20. MinII = 14m.26 (CV). From 1SWASP data, 14m.2–14m.8, MinII = 14m.7; from ROTSE-I/NSVS data, 14m.1–14m.7, MinII = 14m.6 in the R band. The ROTSE data with photometric correction flags were kept for the analysis.

21. MinII = 13m.36 (CV). From 1SWASP data, 13m.25–13m.5; from ROTSE-I/NSVS data, 13m.2–13m.45 in the R band. The ROTSE data with photometric correction flags were kept for the analysis.

22. MinII = 14m.34 (CV). From 1SWASP data, 14m.34–14m.66, MinII = 14m.61 (1SWASPmag). The ROTSE data with photometric correction flags were kept for the analysis.

23. MinII = 13m.63 (CV). From 1SWASP data, 13m.7–13m.95; from ROTSE-I/NSVS data, 13m.6–13m.85 in the R band. According to NSVS data, the light elements are: JD(min) 2451500.765 + 0.27194×E.

24. MinII = 11m.80 (R). In our analysis of 1SWASP data, nights with a large scatter of data points around the light curve were disregarded.

25. D = 0.22 P. MinII = 14m.17 (CV). From 1SWASP data, 13m.8–14m.05; from ROTSE-I/NSVS data, 13m.8–14m.0 in the R band. Combined brightness of two stars, GSC 2967-00227 (=var) and GSC 2967-00606, was measured in the NSVS and 1SWASP, the measured amplitudes are too low. The ROTSE data with photometric correction flags were kept for the analysis.

26. D = 0.10 P. MinII = 14m.50 (CV). From 1SWASP data, 12m.15–12m.6. No period could be derived from NSVS data because of a small number of observations and their large uncertainties. Combined brightness of two stars, GSC 2967-00061 (=var) and GSC 2967-00443, was measured in the NSVS and 1SWASP, the corresponding amplitudes are somewhat too low. It is unclear why the 1SWASP observations result in brighter magnitudes for this star, not explainable with blending, see also No. 35. Some 1SWASP observations (not plotted) give magnitudes close to those measured in the CSS survey. The median magnitude in ROTSE-I/NSVS data is 14.m1.

27. The variability of TYC 2971 1335 1 was independently discovered by Sergey (2013). B–V = 0.055 (Tycho2), J–K = 0.242 (2MASS). From 1SWASP data, 11m.25–11m.65. The ROTSE data with photometric correction flags were kept for the analysis.

28. D = 0.20 P. MinII = 13m.56 (CV). Combined brightness of two stars, GSC 3410-01017 (=var) and GSC 3410-01216, was measured in the NSVS and 1SWASP, the tabulated amplitudes are considerably underestimated.

29. MinII = 13m.26 (CV). From 1SWASP data, 13m.3–13m.55, MinII = 13m.4; from ROTSE-I/NSVS data, 13m.45–13m.7, MinII = 13m.6 in the R band.

30. The variability of GSC 2963-00184 was independently reported by I. Sergey (Astrobloknot Team) in 2013 to the http://www.aavso.org/vsx/ database, on the base of ROTSE-1/NSVS and CSS data. MinII = 13.m85 (CV). J–K = 0.427 (2MASS). From 1SWASP data, 13m.75–14m.40, MinII = 14m.35; from ROTSE-I/NSVS data, 13m.65–14m.2, MinII = 14m.15 in the R band. According to NSVS data, the light elements are: JD(min) 2451450.613 + 0.292166×E. The ROTSE data with photometric correction flags were kept for the analysis.

31. D = 0.18 P. MinII = 13m.0 (1SWASP). From ROTSE-I/NSVS data, 13m.0–13m.5, MinII = 13m.1 in the R band; from CSS data, 12m.63–13m.18 (CV).

32. MinII = 12m.24 (1SWASP). From ROTSE-I/NSVS data, 12m.21–12m.32, MinII = 12m.31 in the R band.

33. MinII = 14m.21 (CV). From 1SWASP data, 13m.85–13m.95. The star's variability was first suspected from NSVS data, but, there being too few NSVS data points, with too high uncertainties, we could not get a reasonably good NSVS light curve for this variable.

34. The variability of GSC 3410-00265 was independently discovered by Palaversa et al. (2013) in the LINEAR Survey. From 1SWASP data, 13m.83–14m.18, MinII = 14m.17; from ROTSE-I/NSVS data, 14m.2–14m.6 in the R band. Combined brightness of two stars, GSC 3410-00265 (=var) and the faint neighbor USNO-A2.0 1350-07221103, was measured in the NSVS and 1SWASP, the measured amplitudes are somewhat uderestimated. According to CSS data, the depth of minima varies.

35. MinII = 13m.84 (CV). According to CSS data, the mean brightness varies. From 1SWASP data, 11m.55–11m.9, MinII = 11m.75; from ROTSE-I/NSVS data, 13m.8–14m.1 in the R band. The light curve shape possibly varies. It is unclear why the 1SWASP observations result in brighter magnitudes for this star, not explainable with blending, see No. 26. Some 1SWASP observations (not plotted) give magnitudes close to those measured in the CSS survey.

36. J–K = 0.674 (2MASS). The ROTSE data with photometric correction flags were kept for the analysis.

37. D = 0.08 P. MinII = 12m.76 (1SWASPmag). From ROTSE-I/NSVS data, 12.m2–12m.85 in the R band. A twice shorter period is not excluded.

38. MinII = 13m.43 (CV). J–K = 0.150 (2MASS). From 1SWASP data, 13m.5–13m.9, MinII = 13m.7; from ROTSE-I/NSVS data, 13m.6–14m.0 in the R band.

39. D = 0.12 P, d = 0.04 P. MinII = 11m.33: (1SWASP). From ROTSE-I/NSVS data, 11m.38–11m.63, MinII = 11m.44: in the R band.

40. D = 0.09P. MinII = 13m.38: (CV). Combined brightness of three stars: GSC 3410-01451 (=var), USNO-B1.0 1376-0227004, and GSC 3410-01895, was measured in NSVS and 1SWASP, the tabulated amplitudes are too low. Probably, the CSS did not resolve the pair consisting of GSC 3410-01451=var and USNO-B1.0 1376-0227004.

41. MinII = 13m.52 (CV). From 1SWASP data, 13m.64–13m.82, MinII = 13m.75; from ROTSE-I/NSVS data, 13m.72–13m.94 in the R band.

42. J–K = 0.710 (2MASS).

43. MinII = 13m.69 (CV). From 1SWASP data, 13m.27–13m.41; from ROTSE-I/NSVS data, 13m.3–13m.4 in the R band. Combined brightness of three stars: GSC 3407-02902 (=var), USNO-A2.0 1350-07260524, and USNO-A2.0 1350-07260699, was measured in NSVS and 1SWASP, our amplitudes are too low.

44. J–K = 0.735 (2MASS).

45. J–K = 0.721 (2MASS). From 1SWASP data, 12m.75–13m.15. The CSS data confirm the semiregular variability.

46. MinII = 13m.81 (CV). From 1SWASP data, 13m.85–14m.17, MinII = 14m.14; from ROTSE-I/NSVS data, 13m.7–14m.0 in the R band. Combined brightness of two stars, GSC 2972-00926 (=var) and GSC 2972-00725, was measured in NSVS and 1SWASP, the amplitudes we find are somewhat underestimated.

47. MinII = 12m.15 (CV) Combined brightness of two stars, TYC 2964 01200 1 (= var) and GSC 2964-01181, was measured in NSVS and 1SWASP, the amplitudes we found are considerably underestimated.

48. MinII = 12m.81 (1SWASP). From ROTSE-I/NSVS data, 12m.65–12m.85, MinII = 12m.80 in the R band.

49. MinII = 14m.42 (CV). From 1SWASP data, 14m.25–14m.65, MinII = 14m.6; from ROTSE-I/NSVS data, 14m.2–14m.6 in the R band.

50. MinII = 10m.12 (1SWASP). From ROTSE-I/NSVS data, 10m.15–10m.3 in the R band. The ROTSE data with photometric correction flags were kept for the analysis.

51. D = 0.07 P. MinII = 14m.14 (CV). From 1SWASP data, 14m.3–14m.8, MinII = 14m.75; from ROTSE-I/NSVS data, 14m.0–14m.5 in the R band.

52. MinII = 13m.49 (CV). From 1SWASP data, 13m.37–13m.72, MinII= 13m.68; from ROTSE-I/NSVS data, 13m.4–13m.75 in the R band. The ROTSE data with photometric correction flags were kept for the analysis.

53. MinII = 13m.41 (CV). From 1SWASP data, 13m.23–13.m.32, MinII = 13m.30; from ROTSE-I/NSVS data, 13m.45–13m.65 in the R band.

54. IRAS 08028+4625. J–K = 1.289 (2MASS). From 1SWASP data, 12m.55–12m.9 (1SWASP). The ROTSE data with photometric correction flags were kept for the analysis.

55. D = 0.11 P. MinII= 13m.75 (CV). From 1SWASP data, 14m.0–14m.8; from ROTSE-I/NSVS data, 14m.0–14m.7 in the R band. According to NSVS data, the light elements are: JD(min) 2451450.685 + 2.1166×E. The ROTSE data with photometric correction flags were kept for the analysis. The star has a faint close companion 2MASS 08074864+4204043.

56. IRAS 08050+4652. J–K = 1.201 (2MASS), B–V = 1.824 (Tycho2). From 1SWASP data, 10m.47–11m.36 (1SWASP). Type SR is not excluded.

57. D = 0.22 P. MinII = 13m.61 (CV). From 1SWASP data, 13m.7–14m.25, MinII = 13m.8; from ROTSE-I/NSVS data, 13m.85–14m.35, MinII = 13m.95 in the R band.

58. MinII = 13m.20 (1SWASP). From ROTSE-I/NSVS data, 13m.20–13m.30 in the R band; from CSS data, 12m.78–12m.91 (CV). DSS images show GSC 2976-01659 elongated; it is probably a close visual binary unresolved in the CSS or in the USNO A2.0, B1.0, 2MASS, GSC 2.2, GSC 2.3 catalogs. Thus, the measured amplitude can be strongly underestimated.

59. The variability of GSC 2980-01109 was independently discovered by Palaversa et al. (2013) in the LINEAR Survey. MinII = 14m.57 (CV). From 1SWASP data, 14m.35–14m.80, MinII = 14m.75; from ROTSE-I/NSVS data, 14m.4–14m.8 in the R band.

60. MinII = 13m.46 (CV). From 1SWASP data, 13m.27–13m.44, MinII = 13m.42; from ROTSE-I/NSVS data, 13m.25–13m.5 in the R band.

61. 1RXS J081531.5+512959. From ROTSE-I/NSVS data, 12m.64–12m.79 in the R band. According to NSVS data, the light elements are: JD(max) 2451500.540 + 0.29761×E. The light curve shape varies.

62. MinII = 13m.37 (1SWASP). From ROTSE-I/NSVS data, 13m.25–13m.35 in the R band; from CSS data, 13m.1–13m.3 (CV).

63. J–K = 0.655 (2MASS). From ROTSE-I/NSVS data, 12m.65–12m.85 in the R band; from CSS data, 12m.4:–12m.8: (CV).

64. MinII = 13m.15 (CV). Combined brightness of two stars, GSC 3421-01203 (=var) and GSC 3421-01228, was measured in NSVS and 1SWASP, the measured amplitudes are somewhat underestimated.

65. MinII = 13m.87 (CV). From 1SWASP data, 13m.9–14m.2, MinII = 14m.15; from ROTSE-I/NSVS data, 13m.8–14m.1 in the R band. Combined brightness of two stars, GSC 2977-01458 (=var) and faint GSC 2977-00830, was measured in NSVS and 1SWASP, the measured amplitudes are somewhat underestimated.

66. J–K = 1.151 (2MASS). The ROTSE data with photometric correction flags were kept for the analysis.

67. From 1SWASP data, 14m.2–14m.4; from ROTSE-I/NSVS data, 13m.8–14m.0 in the R band. The light elements in the table are based on 1SWASP data (JD 2454000–2454600); the period 13.46 days is also not excluded. According to NSVS data, the light elements are: JD(max) 2451507.9 + 12.98×E. CSS data did not permit us to derive a period valid for the long time span of the observarions; probably both the period and the amplitude vary. J–K = 0.747 (2MASS).

68. The variability of GSC 2978-00622 was independently reported by I. Sergey (Astrobloknot Team) in 2013 to the http://www.aavso.org/vsx/ database, on the base of ROTSE-1/NSVS and CSS data. The eclipse in MinI is total, d = 0.08 P. MinII = 13m.83 (CV). From 1SWASP data, 13m.8–14m.2, MinII = 14m.17; from ROTSE-I/NSVS data, 13m.8–14m.2 in the R band. According to NSVS data, the light elements are: JD(min) 2451500.614 + 0.29636×E.

69. B–V = 2.097 (Tycho2), J–K = 1.159 (2MASS). IRAS 08274+4132.

70. MinII = 12m.68 (1SWASP). From ROTSE-I/NSVS data, 12m.46–12m.62 in the R band.

71. J–K = 0.503 (2MASS), B–V = 0.379 (Tycho2). From ROTSE-I/NSVS data, 12m.25–12m.35 in the R band. According to NSVS data, the light elements are: JD(min) 2451500.5 + 2.413×E. The ROTSE data with photometric correction flags were kept for the analysis.

72. B–V = 0.970 (Tycho2), J–K = 0.728 (2MASS). From 1SWASP data, 11m.7–11m.95 (1SWASP). The ROTSE data with photometric correction flags were kept for the analysis.

73. MinII = 13m.16 (1SWASPmag). From CSS data, 12m.65–12m.85, MinII = 12m.85 (CV); from ROTSE-I/NSVS data, 12m.94–13m.08, MinII = 13m.08 in the R band. According to NSVS data, the light elements are: JD(min) 2451500.660 + 0.34532×E.

74. The variability of GSC 3422-01397 was independently discovered by Palaversa et al. (2013) in the LINEAR Survey. MinII = 14m.97 (CV). Combined brightness of two stars, GSC 3422-01397 (=var) and GSC 3422-01612, was measured in the NSVS and 1SWASP, the amplitudes are somewhat underestimated.

75. MinII = 12m.30 (1SWASPmag). From ROTSE-I/NSVS data, 12m.28–12m.41, MinII = 12m.38 in the R band.

76. J–K = 0.686 (2MASS). Type EB is not excluded. From ROTSE-I/NSVS data, 12m.55–12m.7, MinII = 12m.65 or 12m.68–12m.8, MinII = 12m.8 in the R band. The ROTSE data with photometric correction flags were kept for the analysis.

Remarks:
I present a discovery of 76 new variable stars. My search for variables was carried out in the publicly available data of the Northern Sky Variability Survey (NSVS , Woźniak et al. 2004). Besides, to improve classification and light elements, I analyzed all available observations of these stars from the Catalina Surveys (Drake et al. 2009) and SuperWASP (Butters et al. 2010). The sky area with RA between 07h 11m and 08h 45m, Dec between +40° and +52° was searched.

Many of the variables presented in this paper are close visual pairs that cannot be separated with the low resolution of the surveys like NSVS or 1SWASP. Data from the Catalina surveys, which have resolution as good as 12 arcseconds, provide a possibility to solve this problem. In these cases, combined brightness of several stars was measured in the NSVS and 1SWASP, so that the resulting amplitude is underestimated and the variable's mean brightness appears much higher than in reality; for this reason, only CV (Catalina) magnitudes are tabulated for such stars.

These observations were analyzed using the period-search software developed by Dr. V.P. Goranskij for Windows environment. The coordinates were drawn either from the Tycho-2 or from the 2MASS catalogs.

The SuperWASP observations are available as FITS tables, which were converted into ASCII tables using the OMC2ASCII program as described by Sokolovsky (2007).

Acknowledgements: Thanks are due to Dr. K.V. Sokolovsky for his advice concerning data retrieving. The author wishes to thank Dr. V.P. Goranskij for providing his software. This study was supported by the Russian Foundation for Basic Research (grant 13- 02-00664) and by the Program "Non-stationary Phenomena of Objects in the Universe" of the Presidium of Russian Academy of Sciences.

References:
Butters, O.W., West, R.G., Anderson, D.R., et al., 2010, Astron. and Astrophys., 520, L10
Drake, A.J., Djorgovski, S.G., Mahabal, A., et al., 2009, Astrophys. J., 696, 870
Palaversa, L., Ivezić, Ž., Eyer, L., et al., 2013, Astron. J., 146, 101
Sergey, I., 2013, Perem. Zvezdy Prilozh., 13, No. 9
Sokolovsky, K.V., 2007, Perem. Zvezdy Prilozh., 7, No. 30
Woźniak, P.R., Vestrand, W.T., Akerlof, C.W., et al., 2004, Astron. J., 127, 2436


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