UT Aug 14, 2025: Photometry of T CrB

Michael Richmond
Aug 14, 2025

On the night of Aug 13/14, 2025, under very good conditions, I acquired images of the recurrent nova T CrB. This star undergoes outbursts at long intervals of 80 years or so. Its next outburst is predicted to occur soon (but then again, it was also predicted to occur during 2024), and so I've joined the crowd who are monitoring it.

Clouds cut this run about 40 minutes before the object would have reached too high an airmass, but before that point, conditions were very good. One can see well-defined bumps in the light curve, with an amplitude of about +/- 0.05 mag in V and timescales of 30-60 minutes.

T CrB

This recurrent nova brightens by about 8 magnitudes (!), from V = 10 to about V = 2, around every 80 years. Will we see another outburst THIS summer?

These observations involved:

• Meade 12-inch telescope
• no focal reducer, so working at f/10
• ASI 6200MM CMOS camera
• B-filter 60 sec, V-filter 30 sec
• images binned 4x4
• guiding with 3-second exposures, T CrB at (334, 1072);
• focus position on 12-inch:
  • V = 0.610 yields FWHM 2.5? pixels (lots of twinkling) at T = ?
• custom tracking rate +001

Notes from the night:

• light cirrus before sunset, but clear after that, as far as I could tell. At 12:20 AM or so, clouds moved in and I had to stop.
• waning gibbous Moon in East late in the run
• camera at T = -8 C
• temperatures were very warm: T = 94/34 while focusing, dropping to 73/23 at 12:23 AM
• no animals, except perhaps for one bat flittering at dusk

The picture below shows a cropped image of the field of T CrB from Jun 14/15, 2024. The field of view is about 20 arcminutes across.

I've marked the location of several comparison stars, with magnitudes and names taken from the AAVSO's table X40237AAS. Note that the magnitudes listed for stars "A" and "B" have changed from the ones I listed in last year's notes.

  star       name                  B          V         
------------------------------------------------------
      A     000-BJS-901         11.096     10.554
      B     000-BBW-805         11.779     11.166
      C     000-BPC-198         13.049     12.336
--------------------------------------------------------------------------

 

When the target is centered, the finder TV shows this field:

Here's the sky background over the course of the run. Pretty smooth, meaning no clouds (until the end).

The FWHM is steady.

The graph below shows changes in the photometric zeropoint of an ensemble solution of the instrumental magnitudes over the course of the run. Not many outliers due to trailing -- guiding working well.

Using aperture photometry with a radius of 7 pixels in V filter (binned 4x4, each pixel is 1.036 arcsec, so a radius of 7.3 arcsec), and 7 pixels in B filter (binned 4x4, each pixel is 1.036 arcsec, so a radius of 7.3 arcsec), I measured the instrumental magnitudes of a number of reference stars and the target. Following the procedures outlined by Kent Honeycutt's article on inhomogeneous ensemble photometry, I used all stars available in each image to define a reference frame, and measured each star against this frame.

Sigma-vs-mag plots show that the floor in V-band was about 0.006 mag in V, which is very good. it was 0.008 in B.

The measurements show that the target is still in quiescent phase.

I've submitted these measurements to the AAVSO.