FM Walter 8/4/08 SMARTS 1.5m Service Observing Program 080804 --- EPHEMERIS INFORMATION --- For the night of: Mon, 2008 Aug 4 ---> Tue, 2008 Aug 5 Local midnight = 2008 Aug 5, 4 hr UT, or JD 2454683.667 Local Mean Sidereal time at midnight = 20 13 03.4 Sunset ( 2215 m horizon): 18 20 CST; Sunrise: 7 18 CST Evening twilight: 19 35 CST; LMST at evening twilight: 15 47 Morning twilight: 6 04 CST; LMST at morning twilight: 2 18 Moonset : 21 54 CST Moon at civil midnight: illuminated fraction 0.159 3.7 days before first quarter, RA and dec: 11 54 40, -3 05.9 The sun is down for 13.0 hr; 10.5 hr from eve->morn 18 deg twilight. .............................................................................. Civil date Setup Program(s) Aug 04 13/I YALE 08b-02 .............................................................................. Name Slit Filter Coll Grating Tilt & Comp,exp Ystart Ysize Yspec Blaze w.l. cov. (sec) Res (A) 13/I 110.5 clear 585 13 11.58 He-Ar 30 200 280 TBD 4450 3146-9374 17.2 .............................................................................. In afternoon or during dinner: - Install 13/I grating setup - check focus if necessary If there is time: - obtain at least 25 Zero frames - obtain at least 5, preferably 25, flat-field frames (projector or dome) otherwise, do the Zero and pflat exposures at the end of the night. Get well-exposed TWILIGHT SPECTRA at zenith at beginning of night. Aim for three spectra, each with between 5,000 and 30,000 counts per pixel. Program Pri Target RA (J2000) Dec mag Exp Cmp T CST Rem YALE 08B-02 2 PKS 1622-297 16 26 06.0 -29 51 27 20.5 3x 900 1 54 23 18 YALE 08B-02 2 PKS 2155-304 21 58 52.0 -30 13 32 18.5 6x 900 2 103 0 12 YALE 08B-02 2 3C 454.3 22 53 57.7 +16 08 13 18.5 6x 900 1 103 1 55 cal 1 Feige 110 23 19 58.39 -05 09 55.8 11.8 3x 200 1 19 3 38 YALE 08B-02 2 0208-512 2 10 46.2 -51 01 02 ~18 6x 900 2 103 3 57 YALE 08B-02 2 0235+164 2 38 38.9 +16 36 59 ~18 4x 900 2 71 5 40 cal 1 pflat --- --- 0 10 6 51 PP end 13/I 7 1 If there is any time left before dawn, or sky conditions preclude acquisition of the faint targets, select from among the following: STSI TOO 3 NGC 300 0 54 34.16 -37 38 28.6 14.2 3x 600 1 39 standard 3 HD 6953 1 10 19.4 25 27 33.7 5.8 3x 10 1 9 standard 3 Gl 9066 2 00 13.1 +13 03 05 12.3 3x 300 1 24 PM standard 3 HD 16160 2 36 04.9 +06 53 12.7 5.8 3x 10 1 9 standard 3 HD 23249 3 43 14.9 -09 45 48.2 3.5 3x 2 1 9 standard 3 HD 29712 4 36 45.6 -62 04 37.8 5.7 3x 10 1 9 standard 3 HD 30501 4 45 38.6 -50 04 27.2 7.6 3x 30 1 11 standard 3 HD 33894 5 10 57.6 -48 30 43 7.2 3x 30 1 11 Just before sunrise, get well-exposed TWILIGHT SPECTRA at zenith, if you did not obtain then at dusk. Aim for 3-5 spectra, each with between 5,000 and 30,000 counts per pixel. -------------------------------------------------------------------- Remarks: M: moon within 10 deg. Skip if you do not see the star in the acquisition TV C: cataclysmic variable: may be fainter than on finding chart. G: galaxy. Center on nucleus. N: fading nova PP: if not done at the start of the night. Be sure to get one set of bias frames either at the start of end of the night. PM: may have appreciable proper motion. -------------------------------------------------------------------- General Notes: Astronomical ephemerides are from SKYCAL,by John Thorstensen Pri: Target priority. 1 = observe object if possible 2 = extra targets; observe only if no Priority 1 target is available 3 = backup/filler targets; low priority Cmp: 1 means take comparison spectrum only before target exposures; 2 means before and after .............................................................................. Notes about finding charts: Charts are at www.astro.yale.edu/buxton/smarts/find_charts/blazars/blazars.html RA & Dec: all coordinates are accurate to 1"; charts can be generated by operator as necessary using LEDAS or DSS. .............................................................................. Questions may be addressed to: Michelle Buxton michelle.buxton@yale.edu (YALE program) Howard Bond bond@stsci.edu (STSI programs) Fred Walter fwalter@astro.sunysb.edu (SUNY programs)