Strange Quarks

The Central Bureau for Astronomical Telegrams reports that Andrew Pearce in Western Australia (Nedlands) discovered a transient in Scorpius on 2024-02-08, at a visual magnitude of 7.8, and 7.4 on 2024-02-09.

A CCD observation by Andrew a little over half a day later gave a visual (Johnson V) magnitude of 7.2.

It was also independently discovered by Y. Sakurai in Japan (Mito), estimated at magnitude 7.1 on 2024-02-09, and found on images by R. H. McNaught, New South Wales (Coonabarabran).

The transient is designated PNV J17261813-3809354 and it’s position on the sky corresponds to Gaia DR3 5974053153713533184, a 19.4 visual magnitude star.

From nothing observed in the field on 2024-02-07 (Andrew’s DSLR), it rose by more than 10 magnitudes within a day.

The Astronomer’s Telegram has classified the object as a nova near visible peak, however the behaviour of these objects can sometimes be surprising.

The following Stellarium fields show the transient’s approximate position (click to enlarge) at about 3:30am Australian Eastern Daylight Time.

A 10 degree field finder chart from AAVSO is shown below:

The chart will need to be rotated by 90 degrees anti-clockwise to match the sky shown.

I observed the field with 10×50 binoculars this morning from around 5am to 6am Adelaide time (ACDT).

There was a significant amount of cloud around the area that made observing the nova difficult. I proceeded to take DSLR images before sunrise and there is some apparently useful data there. I will do the photometry later today and post an update.

Some updates are also starting to flow into AAVSO and Variable Stars South forums.

Within a day, the nova reached a peak magnitude of 7.8, then dropped two magnitudes, becoming around 5 times dimmer in actual brightness (magnitude is logarithmic).

The AAVSO Alert Notice details the decline of the last outburst over a few months and flares with an amplitude of around half a magnitude that began several days after the peak, for which the mechanism is unknown.

In late September 2021, I wrote about the recurrent nova U Scorpii: Waiting for U Sco and Waiting for U Sco: nearby gamma ray transient detected.

The last image I took of the region around U Sco in September showed no sign of it, but within the last day it has undergone an outburst, and appears to have quickly peaked, as per previous events (the last being in January 2010) before declining again. The nova reached a visual magnitude of 7.8 on June 7 2022 up from its usual magnitude 18 or thereabouts, a difference in brightness of around 25 times (each magnitude being a factor of 2.512 brighter than the whole number magnitude on either side of it). As I write, U Sco has declined to around magnitude 8.4.

The light curves show the current and 2010 outburst, and a close up of the current outburst. It’s interesting note that there appears to have been some evidence of an increase in magnitude in the few months leading up to the outburst.

I took a DSLR image of the region around the nova tonight. U Sco is marked with a red arrow.

While I don’t have images that are suitable for DSLR photometry from tonight (the sky was less than ideal), nor did I have the chance to make a visual (binocular or telescope) observation, from the image I estimate the nova’s magnitude to be around 8.4 (magnitude 8.3 and 8.6 comparison stars are marked with green arrows), which is consistent with the current photometry in the AAVSO International Database.

The following images show the U Sco region tonight (June 2022) and late last September for comparison, in different sky conditions and positions on the sky. The second image has been rotated to match the current event’s sky rotation. Flicking up and down between the images will help reveal the nova, aided by the arrowed image above if necessary.

For more information about recurrent novae, I gave a talk in early September 2021 to ASSA about another recurrent nova RS Oph. See also this AAVSO forum page regarding the current outburst.

EDIT: Here is the AAVSO alert notice: https://www.aavso.org/aavso-alert-notice-779

Two days ago I wrote Waiting for U Sco. Today, here are a few excerpts from ATel #14941 (The Astronomer’s Telegram):

The Large Area Telescope (LAT), one of two instruments on the Fermi Gamma-ray Space Telescope, has detected a new transient gamma-ray source, Fermi J1623-1752.

A possible counterpart to the LAT transient is the recurrent nova U Scorpii with position offset by 0.18 deg from the LAT position, thus just outside the 95% confidence error circle, but within the 99% confidence error circle. U Sco has a known recurrence interval of 10.3 years (Schaefer 2010, ApJS, 187, 275) prior to its outburst in January 2010, thus a new outburst from U Sco could be anticipated. The last observation of U Sco in the AAVSO lightcurve database was on 2021 Sep 19.

Because Fermi normally operates in an all-sky scanning mode, regular gamma-ray monitoring of this source will continue. In consideration of the ongoing activity of this source, we encourage multi-wavelength observations, particularly optical follow-up of U Sco.

ATel #14941

I read about this in a post by Alexandre Amorim (Brazil) in the AAVSO novae forum. Robert Fidrich (Hungary) soon followed up with an iTelescope observation to say that there was no eruption visible.

Given that U Sco almost certainly had an outburst in its “seasonal gap” (unobservable due to position on the sky), probably in 2017, what this current gamma ray event means seems pretty uncertain.

I’ll continue imaging the U Sco region until it’s too low tonight (in between the clouds) and, consistent with my last post, whenever I can thereafter.

When the recurrent nova U Sco goes into outburst again, the image below shows where it will appear (see cross-hair style position marker), with the bright star Antares, and those bracketing it, shown for reference:

Zooming in shows two stars to the right of the nova position marker. Looking at previous outbursts, U Sco’s peak brightness should be somewhere between these two (around magnitude 7.5 to 8, so a binocular or small telescope object).

I’m taking images from my backyard of the U Sco region when I can. The image below (click it to enlarge) was taken on Sep 10 2021. I’ve taken a few since but want to step up the regularity. The red arrow shows where U Sco will appear and the green arrow shows the two stars pointed to above.

In any case, I won’t have the same cause to complain about missing the next outburst of U Sco that Leslie Peltier did about missing the T CrB outburst in 1946 (as related near the end of a recent talk I gave about RS Oph), given that my observing frequency is likely to be less and over a much shorter timeframe.

Addendum: Having said all this, given that there was almost certainly an unobserved eruption in the 2017 seasonal gap, as announced in a March 2019 AAVSO forum post, what does this imply for the prediction made by Brad Schaefer of 2020+/-0.7 in a paper published in June 2019? And yet, see the next post…

The expected decline of the recurrent nova RS Oph continues, almost 3 magnitudes in 7 days. I’ve managed only 5 observations with a couple of cloudy nights between the last two. Luna at 60% illumination in nearby Scorpius tonight made estimating its magnitude (7.2) in 7×50 binoculars a little trickier tonight.

Since my Aug 9 observation of RS Oph, the AAVSO alert notice was published by Sara Beck: Alert Notice 752: Rare Outburst of Recurrent Nova RS Ophiuchi. My 4.5 visual estimate was listed there along with others from Australia, Brazil, the UK, the US, Belgium and Russia.

The next night was cloudy and wet, but there were enough clear periods tonight for another estimate, 5.7 visual, as shown below:

The next two plots show more detail:

I suggested in my last post that based upon previous outbursts, RS Oph will have reduced by 1 magnitude in 2 days, which it has done. A little more actually, from 4.4 on Aug 9 to 5.7 on Aug 11.

These objects are a reminder that we live in a violent, ever changing universe.