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Heavily amplified oxygen signal, projected back onto the 7772Å disk

With this new spectroheliograph, still in the tuning, I observed the infrared oxygen triplet at 7772, 7774 and 7775 Å, on 2025-12-13. As an ERF, I used a Nantong Foric bandpass filter, OD2-ish with the CWL close enough.

To the best of my knowledge, this is the first full solar disk with (amplified) oxygen features and prominences.

A subjective impression is that this oxygen line is somewhat similar to a weak helium. The line is in clear absorption on the disk, but turns into emission as going off the limb. Prominences are readily visible if bright, or become visible after applying math. Continuum subtraction shows that spots seem to be less dark, and the plages are also a bit shaded, less overall contrast.

(tovább…)

He I 10830 — Challenger Deep

2025.12.13. admin

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Nap spectrum

Abstract

2025-12-13, He I 10830 disk. Direct wavelength reconstruction, stack of 50 scans. No continuum was subtracted. The signal is this strong.

Using a Sol’Ex type spectroheliograph[1], we imaged the full solar disk in the He I 10830 line. We obtained rich helium details on the direct disk reconstruction, without applying continuum subtraction, as it is the practice in He I D3. As a side note, the Paschen-gamma disk was also imaged. The original Sol’Ex design was modified and adapted to the near infrared / short wave infrared range, using off the shelf and DIY elements, as well as some high end custom components.

Building the instrument, design considerations

Reaching the Helium line at 10830Å, with the available instruments, seems challenging:

CMOS sensors, nominally, approach zero QE this deep into the NIR/SWIR, and InGaAs sensors, while available, are at a prohibitive price range
materials begin to behave in counter intuitive ways: anodized, black aluminum becomes reflective „white” at these wavelengths
off the shelf items become sparse, the few professional optics vendors come into play
amateur astronomy runs low and runs out of the available bandpass filters that could be used as ERFs

In spite of the challenges, there is some precedence. Christian Buil (Sol’Ex) recorded a proof of concept a while back [2]. So we reached out to Mr. Buil for his insights, and he was kind enough to point us into the right direction regarding the grating and lenses.

(tovább…)

Prominences in the G-band and beyond

2025.10.12. admin

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Nap spectrum

A bright one and then more quiescent prominences in the G-band

In this post I show a bright prominence in the G-band spectrum, and examples that I can routinely show brighter quiescent prominences in both the G-band 4308Å and in the Ca I 4227Å lines.

Various setup configurations are used, Sol’Ex and ML Astro SHG 700 spectroheliographs, 42/400 (62/400 stepped down) and 80/540 refractors, various filters used as ERF to reduce the thermal load on the delicate parts of the optics. Two cameras provided the images, the ZWO 678MM (IMX 678) and Altair Astro 26M (IMX 571).

(tovább…)

Flare in He I 5015.7

2025.09.28. admin

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With a rather unusual setup, the SolEx coupled with the IMX 571 wielding Altair Astro 26C camera, I observed a bright solar flare at 2025-09-28 08:43Z (a longer time series actually) at to my surprise, the helium line also lit up. This is not a typical nor a recommended setup of the SolEx. I sacrificed spatial (either way, bad seeing) and spectral (…) resolution for bit depth.

With the Helium image, I cheated a bit: the perpetually changing thin clouds resulted in the helium wavelength’s disk center getting saturated from time to time, so data’s been taken from non-saturated takes, to fill that gap.

He I 5015, continuum-subtracted

Fe II 5018, CLAHE-enhanced signal

spectra, before and during

Green Helium Prominence — first detection of He I 5015

2025.09.26. admin

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The He I 5015 prominence, probably the least significant bit in the data

Using the usual setup, an ML Astro SHG 700 on a 80/540 refractor and a cooled IMX 678 camera, with an in-cone interference filter as an ERF, letting through the oxygen line, and coincidentally, the Fe II 5018.45Å and also the He I 5015.7Å lines, I managed, for the first time, to dig out a bright-ish prom in the green (turquoise-something) Helium line.

This could well be among the first, if not the very first amateur observation of this line.

See

https://physics.nist.gov/PhysRefData/Handbook/Tables/heliumtable2.htm

Processed using JSolEx.

(tovább…)

H gamma

2025.09.06. admin

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I stacked together some decent scans into this frame of hydrogen gamma. ML Astro SHG 700, with a 80/540 refractor, in-cone ERF, Ersatz-Obsi.

Two Heliums, 2025-07-26

2025.07.27. admin

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I imaged two helium suns, at 5875.6Å the good old He I D3, together with another He I at 7065.2Å. In the D3, the signal is both stronger and of shorter wavelength, and also not at the very extreme of what the device can do, so there are more details.

He I at 7065.2Å

He I D3

The Sun, in He I at 7065Å

2025.07.21. admin

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I imaged the Sun in the neutral Helium line at 7065.2 Angstrom (706.52 nm), on 2025-07-20. The weather was unfavorable with passing clouds and varying seeing, so between 0911 and 1033 UT, a bit after local noon, I recorded and finally kept 19 scans.

I ran a few searches on the internet. Just like with the solar disk in Fe II 5018.45Å, with prominences and all, this may well be the first amateur spectroheliogram of the Sun in this wavelength, and probably the first ever to be processed to reveal these details.

It was a challenge to find this line, but among others, the flash spectrum came to my help.

I used a 80/540 refractor, an in-cone band pass 642 IR filter as the energy rejection filter, and the ML Astro SHG700, with the cooled 678MM camera. Image processing with JSolEx, my own scripts.

More data is needed to confirm this, but at a first glance, this line at 7065, just like the He I D3, appears to reflect features from the corona.

(tovább…)

Some other handy solar stuff

2025.07.16. admin

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because google is no longer our friend when it comes to finding stuff

SOLAR-ISS: A new reference spectrum based on SOLAR/SOLSPEC observations https://www.aanda.org/articles/aa/pdf/2018/03/aa31316-17.pdf

GOES X-Ray Flux https://www.swpc.noaa.gov/products/goes-x-ray-flux

Infrared Helium Sun: https://iopscience.iop.org/article/10.1088/1674-4527/ad37f4/pdf

Databases: https://data.nas.nasa.gov/helio/portals/solarflares/datasources.html

Flares and stuff: https://www.lmsal.com/isolsearch

Flare prediction forecast https://www.solarmonitor.org/forecast.php

Liege https://fermi.jhuapl.edu/liege/s08_0085.html

Bright Helium I D3 flare

On 2025-06-16, at around 0936Z there was a bright flare visible in both Na D1 and Na D2, but also in He I D3 as a bright flash. 27 scans were recorded between 0856Z and 0940Z, with the last couple having the flare. The presented disk image is a composition of stacks, one stack of the disk without the flare, and another stack that shows the flare (motion blurred over a few minutes). Curious dopplers are also present in the raw, as sample frames from the raw scan show.

(tovább…)

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