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Run80 data processing

Contributions by: Stefano Berta, Kaiyi Du.

Here we include the preliminary data reduction results of the re-commissioning NIKA2 run 80, as obtained at the telescope during this week (2026/03/24-31).

Focus difference between the three arrays

As of 2026/03/25 @01:25 UT.
The focus difference Ar1-Ar2 is roughly +1.00 mm.
The focus difference Ar3-Ar1 is roughly -0.05 mm.

• Focus sequences
  Scan nr	Target	Ar2	Ar1	Ar3	Polarized?	Notes
  20260324s153-157	Uranus	0.27	1.25	1.2	no	Started at 1.0 mm; tadadada; Ar2 good fit; Ar1 and Ar3 fit is marginal
  158-162	Uranus	out	1.3	1.25	no	Started at 1.5 mm; Ar1 perfect fit; Ar2 out of range
  163-167	Uranus	0.28	out	out	no	Started at 0.5 mm; Ar2 perfect fit; Ar1 out of range
  171-175	Uranus	out	1.22	1.18	no	started at 1.5 mm; Ar1 perfect fit; Ar2 out of range
  206-210	0851+202	out	1.36	1.31	no	Started at 1.4 mm; Ar1 and Ar3 perfect fit; Ar2 out of range

Beam maps analysis

We have a new Ar3 and we need to characterize its geometry and its flat field. To this aim, on 2026/03/24 we took two beam maps focused on Ar1 (scans 20260324s169 and 177). The idea and hope is that the focus of Ar3 is roughly the same of that of Ar1, thanks to the March 10 intervention, and these beam maps will be good for our purpose.

We reduce the beam maps during the night between 2026/03/24 and 25.
Ar2 is out of focus and in order to be able to reduce it, we need to relax completely the constraints on its beam size and shape.
Ar1 is well on focus. The best beam map is 177. The other (169) has some problems at the lower edge for unknown reasons.
The Ar3 focus is decent. The array is missing Box S, as already known, and also several KIDs in Boxes M, N O (supposedly).

Below here you can see the geometry of the three Arrays as derived from the average of these two beam maps.

Study of the Ar1 and Ar2 beams at different focus values

On 2026/03/25, we carried out a series of calib_1scan with different focus values, starting from the Ar1 optimal focus to the Ar2 optimal focus, in steps of 0.2 mm. The aim was to study the change of MB flux (because the CAL is based on main beams), % of flux in the side lobes of the beam, and FWHM of the minor/major axes of the beam, as a function of focus (distance from the optimal position). Below here you find a table that summarizes our measurements and a series of plots produced by the PIIC monitors for Ar1 and Ar2.

Note, however that polarimetry observations would at best be carried out at the Ar1+3 optimal focus (rather than at a compromise focus) because of the criticality of the IP correction.

Studying this table, we have the suspicion that we need to perform a new lateral focus (XY). We are considering to postpone it to Sep-Oct, after a possible new NIKA2 hardware intervention.

• Study of the NIKA2 beams (TP, point-like target)
  General					Ar1				Ar2
  Scan nr	El. [deg]	Target	Z Focus [mm]	Notes	MB flux [mJy]	Side lobes %	FWHM min [arcsec]	FWHM max [arcsec]	MB flux [mJy]	Side lobes %	FWHM min [arcsec]	FWHM max [arcsec]
  243	48.8	3C273	1.35	Ar1 focus	4.85	7.4%	11.40	11.86	6.96	8.5%	17.72	20.47
  245	50.1	3C273	1.15	Ar1-0.2 mm	4.32	9.5%	11.43	12.84	7.19	7.7%	17.54	19.49
  247	51.8	3C273	0.95	Ar1-0.4 mm	4.07	11.2%	11.61	13.06	7.21	7.8%	17.24	19.60
  249	52.9	3C273	0.75	Ar1-0.6 mm	3.77	16.0%	12.44	15.67	7.51	7.2%	17.19	18.84
  251	53.7	3C273	0.55	Ar1-0.8 mm	3.62	19.8%	14.78	21.86	7.47	7.3%	17.34	18.56
  253	54.3	3C273	0.35	+/- Ar2 focus	3.64	28.1%	17.40	29.17	7.34	8.0%	17.59	18.59
  NOTE: the focus values listed here do already include the -0.2 adjustment for the curved focal surfaces

New Study of the Ar1, Ar3 and Ar2 beams at different Z focus values

2026/03/28-29 Following the request by Carsten, we repeat the experiment. Carsten noted that the best Ar2 beam is not at the best Ar2 focus, but a bit far from it. Several factors might be causing this:

• first of all this seems to be an indication of the need of a new lateral (XY) focus. We have discussed it here and we have decided to wait for October, because a) there won;t be any science observations meanwhile; b) there will hopefully be another NIKA2 hardare intervention to fix the difference of focus between Ar13 and Ar2, that seems to be caused again by the dichroic that is bending (a lot).
• during the whole campaign the best Z focus might have slightly changed, because of a change of Elevation and of other conditions such as temperature etc., although such change is surely not as big at 0.6 mm.

Check the table below: the Ar1 and Ar3 MB fluxes increase when they should be decreasing! Are we seeing the QSO that is bursting? Or is it the wind? Or the change of Elevation (I hope not!)

• Study of the NIKA2 beams (TP, point-like target) using calib_1scan
  General					Ar2				Ar1				Ar3				Extras
  Scan nr	El. [deg]	Target	Z Focus [mm]	Notes	MB flux [mJy]	Side lobes %	FWHM min [arcsec]	FWHM max [arcsec]	MB flux [mJy]	Side lobes %	FWHM min [arcsec]	FWHM max [arcsec]	MB flux [mJy]	Side lobes %	FWHM min [arcsec]	FWHM max [arcsec]	windy records
  20260328s165	38.9	3C279	1.59	Ar1 focus	12.34	9.4%	17.35	24.72	8.51	6.3%	11.52	12.10	11.32	7.5%	11.37	12.29	--
  167	40.6	3C279	1.49	Ar1-0.1 mm windy	12.32	9.8%	17.25	25.01	8.17	6.5%	11.82	13.64	10.79	7.8%	11.78	13.23	5.5%
  169	41.9	3C279	1.39	Ar1-0.2 mm windy	12.77	9.5%	17.03	25.02	8.39	7.1%	11.85	13.44	10.96	7.9%	11.73	13.07	8.9%
  171	43.1	3C279	1.39 !	Ar1-0.3 mm windy	14.78	9.6%	16.81	25.82	10.98 (?)	7.8%	11.80	14.06	14.23 (?)	8.2%	11.84	13.52	9.0%
  173	44.2	3C279	1.29	Ar1-0.4 mm windy	16.27	10.8%	17.71	26.68 (?)	14.18	9.2%	12.61	17.07	17.56	9.2%	12.63	16.49	7.5%
  175	45.2	3C279	1.19	Ar1-0.5 mm	17.18	9.3%	17.31	24.85	14.83	8.4%	11.62	17.56	18.45	8.8%	11.80	16.16	--
  177	45.9	3C279	1.59 !	Ar1 focus !	16.7	11.2%	17.05	29.45	15.56	9.1%	12.82	13.64	18.75	8.4%	12.31	13.55	--
  20260329s2	46.4	3C279	1.09	Ar1-0.6 mm	18.12	10.3%	17.85	25.41	17.26	10.7%	11.86	21.65	20.12	10.4%	11.96	18.95	--
  4		3C279	1.59 !	Ar1 focus ! windy	17.50	13.6%	17.46	34.04	17.19	13.2%	13.92	15.56	19.85	11.9%	12.90	15.72	14.7%
  This last scan would have been on ar1 focus! We stop. Too much wind. We will have to repeat this exercise on a calm night, possibly wher the source is culminating, so to minimize the changes of Elevation between scans.
  6 n/a		3C279	0.99	Ar1-0.7 mm
  8 n/a		3C279	0.89	Ar1-0.8 mm
  10 n/a		3C279	0.79	Ar1-0.9 mm
  12 n/a		3C279	0.69	Ar2 focus
  14 n/a		3C279	0.59	Ar2 focus
  16 n/a		3C279	0.59	Ar2 focus
  NOTE 1: the focus values listed here do already include the -0.2 adjustment for the curved focal surfaces
  NOTE 2: the Ar3 absolute flux calibration is incorrect because no DAFs CAL are available yet
  NOTE 3: focus performed in scans 159-163, Ar1=1.59; Ar3=1.54; Ar2=0.59
  NOTE 4: windy records = percenteage of records rejected because of too large tracking deviations

Third (and last attempt to study of the Ar1, Ar3 and Ar2 beams at different Z focus values

2026/03/30 I try again. The wind has decreased significantly. This time I use 3C273 (much more stable than 3C279). I do it close to culmination, such that the change of Elevation is minimized. I also monitor the P100 information, i.e. the behaviour of the main dish / back structure temperature sensors. In fact, it is known that these sensors suffer humidity and condensation of the water that accumulates into the back structure. When they "get wet", the temperature difference in the back structure has some peaks and the temperature compensation of the focus goes bananas.

The procedure is as in the two previous attempts:

• pointing, focus, to determine the best focus values
• pointing, calib_1sca
• starting at the Ar1 focus and decresing to the Ar2 focus, in steps of 0.2 mm (as on 2026/03/25; instead of 0.1 mm as yesterday)

  Study of the NIKA2 beams (TP, point-like target) using calib_1scan
  General									Ar2				Ar1				Ar3
  Scan nr	Tapas El. [deg]	Target	Z Focus [mm]	Notes	windy records	T diff bck struc [C]	T diff quadripod [C]	Z axis corr by T [um]	MB flux [mJy]	Side lobes %	FWHM min [arcsec]	FWHM max [arcsec]	MB flux [mJy]	Side lobes %	FWHM min [arcsec]	FWHM max [arcsec]	MB flux [mJy]	Side lobes %	FWHM min [arcsec]	FWHM max [arcsec]
  20260330s11	54.01	3C273	1.05	Ar1 focus	--	-1.35	-0.41	-1063	7.02	12.8%	18.07	26.48	5.38	7.0%	11.50	12.32	6.33	8.5%	11.48	12.50
  13	53.37	3C273	0.85	Ar1-0.2	--	-0.94	-0.36	-740	7.05	13.4%	18.17	28.56	5.43	6.9	11.69	12.26	6.3	8.3%	11.25	12.57
  15	52.45	3C273	0.65	Ar1-0.4	--	-0.98	-0.36	-759	7.49	10.5%	17.53	23.03	5.44	7.6%	11.29	12.67	6.39	9.0%	11.18	12.58
  17	51.44	3C273	0.45	Ar1-0.6	--	-0.86	1.14	-966	7.82	9.3%	17.54	21.00	5.00	10.8%	11.28	14.51	5.95	11.4%	11.31	13.69
  19	50.30	3C273	0.25	Ar1-0.8	--	-1.42	-0.18	-1170	8.06	7.6%	17.78	19.17	4.50	16.8%	12.47	18.93	5.15	16.6%	12.37	17.13
  21	48.88	3C273	0.05	Ar1-1.0 = Ar2 focus	--	-1.50	-0.23	-1228	8.12	6.7%	17.71	18.79	4.43	21.9%	15.50	24.61	5.04	21.1%	14.66	22.37
  23	47.49	3C273	-0.15	Ar1-1.2	--	-1.53	-0.27	-1245	7.99	7.7%	17.53	10.12	4.66	22.0%	19.57	29.36	5.17	24.7%	18.30	26.48
  25	45.97	3C273	1.05	Ar1 focus	--	-1.47	-0.15	-1219	7.11	8.4%	17.96	21.77	5.48	6.5%	11.24	11.74	6.46	6.5%	11.02	12.09
  NOTE 1: the focus values listed here do already include the -0.2 adjustment for the curved focal surfaces
  NOTE 2: the Ar3 absolute flux calibration is incorrect because no DAFs CAL are available yet
  NOTE 3: focus performed in scans 4-8, Ar1=1.05; Ar3=1.05; Ar2=out of range
  NOTE 3b: focus checked again at the end of the exercise, in scans 26-30, Ar1=1.05; Ar3=1.03; Ar2=out of range; good; the focus kept stable along the whole test.
  NOTE 4: windy records = percentage of records rejected because of too large tracking deviations
  NOTE 5: the Temperatures of the back structure etc. are recorded at the start of the calib_1scan

Test of focus difference between the three arrays after cryostat total warm-up and cool-down cycle (April 24, 2026)

AoD: Ioannis

Outline of test slot T21-25:

• Started with the test on-time (21:00 LT)
• Tuning instrument with cryostat window closed (run92.ini). Bad kids 12/5/11 for Ar1/Ar2/Ar3. No bumps in DAQ traces for all arrays, instrument looks in very good condition.
• Tuning instrument with cryostat window open. Bad kids 47/13/28 for Ar1/Ar2/Ar3. No bumps in DAQ traces for all arrays, instrument looks in very good condition.
• Pointing and several focus sequences on 3C273. Stability at the beginning at +/- 3 Jy/beam at 2mm.
• Going to 3C279 for another focus test. Stability gets worse at +/- 7-10 Jy/beam. Opt focus for Ar2 and beam is 16.98x18.42
• Later stability improved again at +/- 2-3 Jy/beam
• Back to 3C273 for the calib_1scan series test at different focus positions. Results listed below. Consecutive scans showed strangely a pointing disagreement between the arrays with 2-3 arcsec differences in both Az and El.
• Conditions get much poorer at the end with +/- 20 Jy/beam (2mm)

As of 2026/04/25 @22:00 UT.
The focus difference Ar1-Ar2 is roughly +1.20 mm.
The focus difference Ar3-Ar1 is roughly -0.05 mm.

• Focus sequences
  Scan nr	Target	Ar2	Ar1	Ar3	Polarized?	Notes
  20260425s35-39	3C273	0.81	out	out	no	Started at 1.0 mm; Ar2 good fit; Ar1 and Ar3 fit is out
  40-44	3C273	out	1.97	1.93	no	Started at 2.0 mm; Ar1 and Ar3 good fit; Ar2 out of range
  45-49	3C273	0.91	out	out	no	Started at 1.4 mm to catch all 3 focus positions but just missed Ar1 and Ar3
  51-55	3C279	out	out	out	no	started at 1.6 mm to catch all 3 focus positions but all arrays out of range
  56-60	3C279	0.79	out	out	no	Started at 1.0 mm; Ar2 perfect fit; Ar1 and Ar3 out of range
  61-65	3C279	out	2.03	1.97	no	Started at 2.0 mm; Ar1 and Ar3 good fit; Ar2 out of range

  Study of the NIKA2 beams (TP, point-like target) using calib_1scan
  General									Ar2				Ar1				Ar3
  Scan nr	Tapas El. [deg]	Target	Z Focus [mm]	Notes	windy records	T diff bck struc [C]	T diff quadripod [C]	Z axis corr by T [um]	MB flux [Jy]	Side lobes %	FWHM min [arcsec]	FWHM max [arcsec]	MB flux [Jy]	Side lobes %	FWHM min [arcsec]	FWHM max [arcsec]	MB flux [Jy]	Side lobes %	FWHM min [arcsec]	FWHM max [arcsec]
  20260425s67	49.58	3C273	2.03	Ar1 focus	--	-2.38	+0.33	-2091	7.74	11.6%	18.24	23.26	4.26	11.4%	11.53	11.68	4.35	12.3%	11.10	12.68
  69	50.49	3C273	1.63	Ar1-0.4	--	-2.39	+0.29	-2091	8.30	9.2%	17.66	20.77	3.79	14.6%	11.96	12.84	3.99	14.3%	11.13	14.28
  71	51.26	3C273	1.23	Ar1-0.8	--	-2.28	+0.39	-2018	8.31	8.1%	17.65	19.76	3.13	20.4%	13.68	17.29	3.35	20.9%	12.47	18.40
  73	52.08	3C273	0.83	Ar1-1.2 ~ Ar2 focus	--	-2.32	+0.34	-2042	8.47	8.6%	17.77	19.11	2.93	32.3%	17.11	22.32	3.26	29.0%	16.20	22.54
  NOTE 1: the focus values listed here do already include the -0.2 adjustment for the curved focal surfaces
  NOTE 2: windy records = percentage of records rejected because of too large tracking deviations
  NOTE 3: the Temperatures of the back structure etc. are recorded at the start of the calib_1scan

Testing focus difference between the arrays: May 19, 2026

• AB: thanks to Brisa Mancillas and the current Team of the heterodyne pool week for this opportunity.
• Cryostat has been cold since April 24, 2026. During the morning maintenance slot, Dave noticed a relatively wide bump at ~1.4 Hz in the noise traces of array 1, with the window closed.
• Starting the preparation for the focus test at 21:00 (LT); anomalous refraction/unstable atmosphere during the preceding hours; tau_225GHz~0.25; pretty clear sky, no wind. DAQ started at 21:15 just after finishing an EMIR scan; window closed, bad KIDs (ar1, 2, 3): 10/1000, 7/574, 9/749. Noise traces:

• DAQ restarted at 21:25; window open, blank sky, bad KIDs (ar1, 2, 3): 17/1000, 7/574, 17/749. Noise traces:

• First pointing on 1226+023 (3C273) @21:33, El. ~51.5 deg.; stability: p2p var. ~5 Jy/beam (2 mm); superb tracking. Five focus sequences. Not so stable in the middle of the session (p2p var. up to ~15 Jy/beam, 2 mm). Switched to 3C279 in the last part. Coming back to EMIR at ~22:35. Ideally, the next test -maybe a repetition of this one for confirming results, before the planned partial warm-up (TBD)- should be carried out just before midnight, so that the telescope is more relaxed. Focus offsets: Ar1-Ar2 = 1.01 mm, Ar3-Ar1 = -0.03 mm.

  Focus sequences
  Scan nr	Target	Ar2	Ar1	Ar3	Polarized?	Notes
  20260519s234-238	3C273	0.23	(1.41)	(1.43)	no	Started at 1.0 mm; Ar2 good fit; Ar1 and Ar3 fit from (FWHM's only), peak fits are bad
  239-243	3C273	(0.58)	1.53	1.54	no	Started at 1.45 mm; Ar2 fit from (FWHM's only), peak fits are bad; Ar1 and Ar3 good fit
  244-248	3C273	0.56	out	out	no	Instabilities increasing; started at 0.3 mm; Ar2 good fit; Ar1 and Ar3 very bad
  250-254	3C279	out	1.59	1.53	no	Started at 1.7 mm; Ar2 fit from FWHM is bad; Ar1 and Ar3 good fit
  255-259	3C279	0.55	out	out	no	Started at 0.6 mm; Ar2 good fit; Ar1 and Ar3 very bad

• Selected best-fit plots:

Testing focus difference between the arrays: May 20, 2026

• AB: Cryostat cold since April 24, 2026. As a side note, Dave changed to the 2nd trap in the afternoon. Checking yesterday's results just after midnight, hopefully with a more relaxed telescope and stable atmosphere.

• DAQ started at 22:55 (LT), bad KIDs (ar1, 2, 3): 21/1000, 7/574, 13/749. Mild wind (~8 m/s max.). Pointing on 3C279, El. ~47 deg. Excellent tracking and stability throughout the session (~2 mJy/beam 2mm): ended at ~00:10. Focus offsets: Ar1-Ar2 = 1.15 mm, Ar3-Ar1 = -0.02 mm.

  Focus sequences
  Scan nr	Target	Ar2	Ar1	Ar3	Polarized?	Notes
  20260520s186-190	3C279	0.72	out	out	no	Started at 0.5 mm; Ar2 good fit; Ar1 and Ar3 bad
  191-195	3C279	(0.89)	1.87	1.83	no	Started at 1.7 mm; Ar2 fit from (FWHM's only), peak fits are bad; Ar1 and Ar3 good
  196-200	3C279	0.64	out	out	no	Started at 0.85 mm; Ar2 good fit; Ar1 and Ar3 bad
  201-205	3C279	(0.96)	1.82	1.81	no	Started at 1.9 mm; Ar2 fit from (FWHM's only), peak fits are bad; Ar1 and Ar3 good
  206-210	3C279	0.6	out	out	no	Started at 0.7 mm; Ar2 good fit; Ar1 and Ar3 bad
  211-215	3C279	(0.89)	1.71	1.69	no	Started at 1.8 mm; Ar2 fit from (FWHM's only), peak fits are bad; Ar1 and Ar3 good

• Selected best-fit plots:

Testing focus difference between the arrays: May 21, 2026

• DAQ started at 22:40 (LT), window closed, bad KIDs (ar1, 2, 3): 16/1000, 9/574, 11/749. Noise traces:

• DAQ restarted at 23:00 (LT), window open, bad KIDs (ar1, 2, 3): 14/1000, 7/574, 14/749. Low wind speed (<3 m/s max.), tau_225GHZ ~0.2. Noise traces:

• First pointing on 3C279, clear sky, excellent tracking, stable (<1-4 mJy/beam throughout the shift). Starting focus sequences. Ended at 00:25 (LT). Focus offsets: Ar1-Ar2 = 1.17 mm, Ar3-Ar1 = -0.05 mm.

  Focus sequences
  Scan nr	Target	Ar2	Ar1	Ar3	Polarized?	Notes
  20260521s290-294	3C279	0.71	out	out	no	Started at 0.5 mm; Ar2 good fit; Ar1 and Ar3 bad
  295-299	3C279	(0.92)	1.81	1.78	no	Started at 1.8 mm; Ar2 fit from (FWHM's only), peak fits are bad; Ar1 and Ar3 good
  301-305	3C273	0.72	out	out	no	Started at 0.7; Ar2 good fit; Ar1 and Ar3 bad
  306-310	3C273	0.79	1.99	1.94	no	Started at 1.6; reasonable fits
  311-315	3C273	out	1.79	1.77	no	Started at 1.9; Ar2 marginal, Ar1 and Ar3 good; very stable
  316-320	3C273	0.6	out	out	no	Started at 0.8; Ar2 good fit; Ar1 and Ar3 bad; very stable
  321-325	3C273	out	1.87	1.83	no	Started at 1.9; Ar1 and Ar3 good

• Selected best-fit plots:

Cross-talking of Ar3

2026/05 Kaiyi started the cross-talk analysis of run 80. It seems that the new Ar3 has quite a number of cross-talking KIDs. Here follows an example of 42 KIDs, showing that several are affected (at least 16/42 in this case). The analysis is ongoing and the list of cross-talking KIDs will be updated in the PIIC DAFs as soon as we have converged on the final identification.

Testing focus difference between the arrays: June 5, 2026

• First focus test after the partial warm-up of May 22nd. Cryostat in good shape, DAQ started earlier, window closed, bad KIDs (ar1, 2, 3): 14/1000, 9/574, 7/749. Nice noise traces.

• DAQ re-started at 23:55 (LT), window open, bad KIDs (ar1, 2, 3): 28/1000, 4/574, 14/749. Mild wind (~7-8 m/s max.), tau_225GHz ~0.4-0.5. Pointing on 3C273, El. ~43 deg. Excellent tracking and stability along the session (<2 mJy/beam, 2mm): ended at 01:20. Focus offsets: Ar1-Ar2 = 1.13 mm, Ar3-Ar1 = -0.05 mm.

  Focus sequences
  Scan nr	Target	Ar2	Ar1	Ar3	Polarized?	Notes
  20260605s300-304	3C273	0.55	(1.49)	--	no	Started at 1.0 mm; Ar2 good fit; Ar1 fit from (FWHM's only); Ar3 bad (4/5 scans only)
  20260605s305-309	3C273	(0.68)	1.65	1.61	no	Started at 1.6 mm; Ar2 fit from (FWHM's only, marginal), peak fits are bad; Ar1 and Ar3 good
  20260605s310-314	3C273	(0.89)	1.7	1.64	no	Started at 1.8 mm; Ar2 fit from (FWHM's only, marginal), peak fits are bad; Ar1 and Ar3 good
  20260605s315-319	3C273	0.54	(1.47)	out	no	Started at 1.0 mm; Ar2 good fit; Ar1 fit from (FWHM's only, marginal); Ar3 bad
  20260605s320-324	3C273	out	1.66	1.61	no	Started at 1.9 mm; Ar2 bad; Ar1 and Ar3 good
  20260605s325-329	3C273	0.38	out	out	no	Started at 0.8 mm; Ar2 good fit; Ar1 and Ar3 bad
  20260605s330-334	3C273	out	1.52	1.46	no	Started at 1.8 mm; Ar2 bad; Ar1 and Ar3 good

Testing focus difference between the arrays: June 9, 2026

(pending)

Summary of focus offset tests (mean values) - Run 80

Please update this table after a new session and keep it at the bottom of the page. FWHM-only individual focus corrections were not taken into account:

• Session dates	Ar1-Ar2 [mm]	Ar3-Ar1 [mm]	Warm-up starts (full/partial)	Cool-down ends
  24/03 - 31/03/2026 (*)	1.08	-0.04	03/03 (full)	18/03
  25/03	1.00	-0.05
  25/04	1.15	-0.05	09/04 (full)	24/04
  19/05	1.01	-0.03
  20/05	1.15	-0.02
  21/05	1.17	-0.05
  05/06	1.13	-0.05	22/05 (partial)	26/05
  09/06 (pending)

  (*) Re-commissioning week.