Versions Compared

Key

  • This line was added.
  • This line was removed.
  • Formatting was changed.

...

Calm with scattered clouds and temperature around 70.

Above: MPD03 shows high levels of watervapor water vapor and possibly a light rain shower overnight about 1000 UTC (0300 PDT).

...

First dust structures of the day.

Below: lots of cumulus clouds at 12:50 PM PDT:

Image Added


LabVIEW display at 1536 PDT - note the increased signal levels in both channels

Today, Bruce and Shane adjusted the attitude of the REAL trailer to restore it to the pitch and roll prior to TS Hilary.  Background: rain from TS Hiliary caused the east and front of the trailer to sink slightly (about 0.2-degrees in roll and about 0.03-degrees in pitch).   It was just enough that the beam was intersecting the ground to the NE of the linear array.  Since August 21 until this afternoon we compensated by increasing the elevation angle on the BSU to 0.10 degrees.  That is relative to the platform.  So, if you see 0.10-degrees in the data/images from 8/21 until about 2:20 PM PDT today (8/25), that is with a platform that is not perfectly level and it was our best effort at keeping the beam horizontal as it was before TS Hilary passed over.

Image Added

Image Added


From the 10-day history of platform angle data shown above, you can see that the Trans (transverse) angle had been ranging from -0.12 to -0.09 degrees with a mean of about -0.107 degrees.

The Long (longitudinal) angle had been running +0.371 to +0.397 with a mean of about 0.381 degrees.   The gap in the middle was the day off when it rained all day.   The step changes in angles on the far right are through the adjustments that Bruce and Shane made today on the hand-cranked leveling legs of the trailer.   We found that one full clockwise crank on both of the right (east) legs decreased the Trans angle by about 0.026 degrees. In all, we made 7.75 full clockwise cranks on both of the east leveling legs to bring the trans angle (roll) back down.   We gave 5 full clockwise cranks to both front legs to raise the Long angle (pitch) to about the same range where it was on the day before the rain started.

Note for the record: we use two Applied Geomechanics TuffTilt tiltmeters that are fastened to the optics table. Photos below. (They are the high-gain version and the user manual states they have a resolution of <0.0001 degrees and repeatability of <0.0002 degrees, although we take the analog out of each and run it through our signal conditioning box and into the REAL data acquisition computer to be digitized by the NI multifunction card.)  The rooftop scanner sits on an x-rail tower that is bolted to the table so changing the trailer, changes the table, which changes the tower and scanner.  The tiltmeter closest to the telescope is the Trans angle and the one closer to the side is the Long angle.  To know for sure which angles they are sensing requires looking on the end of the sensor box where the cable feeds in and noticing the sticker that shows neg to pos range of angles and an arrow.   The sticker on the Long angle sensor is hidden on the side but we know that it must be since one senses Trans and one senses Long.

Image AddedImage Added

At about 2:20 PM PDT we set the elevation angle on the BSU back down to 0.0 degrees.

Skies become much clearer in the later afternoon.  The following eastern panorama was taken at 16:51 PDT.

Image Added

View to the south at 5:12 PM PDT:

Image Added

Bruce and Shane left field site around 5:30 PM PDT.


Shane shutdown system from hotel at 10:33 PM PDT.

Image Added