LBA repairs

Well, as reported, the jänis had struck twice and that meant lots of repair work for us. Actually in total there were 14 x LBA aerials to fix.

Status on 27-Aig-2014

The storm damaged ones were the most work. There required fitting new connectors (the old ones had been ripped clean off during the impacts). The jänis-attacked LBAs were more numerous, but less time consuming.

Repaired LBA line (Photo: D. McKay-Bukowski)

The fix was adding a new length of nylon guy line. A double-fisherman's bend is used to join the new section of line to the old and a bowline is used to make the loop to hook over the peg.

To discourage the jänis from simply biting through these again, we smeared the lines with a combination of spray lubricant and grease. This is waterproof and should give a bad smell and texture, thus deterring further jänis attacks.

However, in the long-term, we'll still need to work out a better way of protecting the LBA aerial lines.

Jänis attacks!

Last week we made a service visit to KAIRA. There were four LBA aerials still down from the blizzard of 2014 and these needed fixing. However, on arrival at the site, we noted that there were some other LBA aerials down.

What?!

We hadn't noticed this in the data, so it must have been recent. And inspection of the field indicated that the nylon lines had been cut on multiple LBA aerials, which is what had caused them to fall.

A cut LBA line. (Photo: D. McKay-Bukowski)

Field of woe. (Photo: D. McKay-Bukowski)

We believe that the cause of this is a jänis (Wikipedia). These creatures like to gnaw on things and it looks like the LBA array was the target. Knowing our luck, it was probably the cute jänis we saw a while back.


What's worse, on the second day, we found yet more LBA aerials down. The jänis had struck again! (This led to much silliness on twitter.)

In total, some 10 LBAs were downed over two days (26-27 Aug 2014). More repair work for us then.

KAIRA spectral riometry paper out!

I'm happy to announce that our proof-of-concept study on the electron density profile estimation based on the KAIRA spectral riometry measurement has been finally published in the Geophysical Research Letters, please have a look:

Kero, A., J. Vierinen, D. McKay-Bukowski, C.-F. Enell, M. Sinor, L. Roininen, and Y. Ogawa (2014), Ionospheric electron density profiles inverted from a spectral riometer measurement, Geophys. Res. Lett., 41,  doi:10.1002/2014GL060986

By comparing our spectral riometry results to a simultaneous EISCAT VHF measurement, we were able to show that the methodology works, at least under conditions of relatively strong ionisation. This builds confidence towards continuous monitoring of height-dependent D-region ionisation by spectral riometry.

Typical KAIRA

Today's photo has a bit of everything. The LOFAR HBA tiles, the LBA array in the background, Saana dominating the horizon, the storage containers and site area, and our trusty observatory vehicle.

The KAIRA site (Photo: D. McKay-Bukowski)

Valhalla

Always curious to try local produce, I tried this herb liqueur by Koskenkorva. It comes in a matt black bottle, rates at 35% and is ominously titled:  "Valhalla".

Herb ingredients are: Angelica achangelica, Artemisia absinthium, Achillea millefoium, and Glycyrrhiza glabra. 

Roadworks

Driving back late one night from KAIRA to SGO there was (yet another) hold up. This time roadworks. In fact there is a bridge under repair on the route from Kittila to Sodankylä and this is where we got stuck.

We were the only car.

And yet the delay was... well...

Plasma lines at Arecibo

25 MHz wide plasma line profile at Arecibo, 2.5 seconds of integration. 

A while ago, Thomas covered the Arecibo radar school (you can see our black rack receiver on the table in one his pictures). During the school, a little bit of data taking took place. Between his lectures, Phil Erickson ran data collection with our 25 MHz digital receiver, in anticipation for a longer campaign that will occur later this year. As I wasn't in Puerto Rico, and I've been traveling elsewhere, I'm only now starting to analyze the results. But they are quite nice.  The system can pretty much do what the existing 5 MHz wide Pentek system can do, but at 25 MHz bandwidth, allowing us to measure plasma line profiles such as this. You'll probably need to zoom in the picture to pick out the narrow plasma line. There is also a higher resolution version on line here.

Anyway, this is quite a successful first try. The IF will need to be at a different frequency than 260 (e.g., 264 would be nice), as plasma line below 10 MHz folds, and can also be seen "sliding" down from +12.5 MHz too. Another option is to bring a tuner to shift the band to a lower IF. Also, the wide band IF doesn't seem to be wide enough. The upshifted line isn't that visible due to filter roll-off.