Sandia View Observatory

Well, I’ve been using the trial version of ACP Scheduler with my copy of ACP and all I can say is WOW. You just enter target projects and some constraints like what airmass, moonavoid, airmass range, hour angle, etc. and Scheduler will figure out the best time to image and which target to image next.

To test it out I created some target lists of CVs in Pisces, Cassiopeia, Andromeda together with my normal time series targets and inputted this information into Scheduler and turned it on. It was amazing to watch it control everything and prioritize the nights images. I didn’t have to figure out what time to observer what like I use to – which was such a big pain in the ass.

Now I have LOTS of images that I needed to process for photometry. Wondering of a better way to process these images I started using one of the free utility programs from the AAVSO called vPhot. I have greatly increased my production of images to the AAVSO database by using these two programs.

I finally got around to looking at some reference star fields I took images of during the last month or so. I used BVR photometric filters and ran them through Photored, a sub program of MPO Canopus. The M67 star field  from Nov 9th looks to have very good data while M67 from the night before seems to have very high extinction and zero points so I’m inclined to think the sky was way less than photometric. I had a Landolt field called SA114 from way back in October and seems to give good results that closely agree to M67 from Nov 9th.

The averaged results from M67 and SA114 are as follows: (error is in quadrature)( CI of B-V)

Tb = 0.0705  σ 0.0150

Tv = -0.0155  σ 0.0050

Tr = -0.0420  σ 0.0125

Tbv = 1.0925  σ 0.0161

k’b = 0.2740  σ 0.0224

k’v = 0.1605  σ 0.0094

k’r = 0.1220  σ 0.0122

CI of V-R:

Tvr = 1.054

Tb = 0.137  σ 0.011

Tv = -0.031  σ 0.007

Tr = -0.085  σ 0.011

The suspicious ZP and extinction numbers from M67 from 8 November was in the range of: k’b = 0.541 k’v =0.716 and k’r = 0.851. the airmass range was good, first set of data was X = 1.13 and second X=2.43 so that had a nice range. I just suspect lots of moisture or dirt in the air.

As M67 is becoming more of target in this fall and winter nights I hope to get more data and check the averages. Some screen shots of the Photored reductions can be seen below:

Tbv

Tb

Tv

Tr

k'b

k'v

k'r

I’ve been busy collecting time series of a few CVs and some Landolt FoVs over the last few weeks. Some of the CVs I’ve been watching are 1RXSJ 0704+2625, V1032 Cas and 1RXSJ 0636+3535. I got some images of Landolt fields for transformation calculations. I used Landolt FoV SA114 and SA95. The first night data looks promising  one night had high STD DeV so I discarded it. I’ll post more on my Transforms laster when I reduce the other nights data and compare.