Author Photonstopper

A fine day for some solar astronomy and a fond farewell to AR4079

Photonstopper
Our temporary observing setups are assembled on the base/floor of the planned observatory. The light orange bucket, at center, protects an empty electrical conduit that will provide utility power to a permanent pier that will be installed there. In the foreground is a table supporting a light shield for the laptop computer. The large tripod next to the table supports the white light imaging scope. In the background is the Sky-Watcher SolarQuest mount with our Coronado hydrogen-alpha solar scope attached.

We’re still doing open-air astronomy though we have a nice, solid, clean, and level space to set up our gear! This is the setup we were using today to record the sunspot at active region 4079 as it is about to roll over the solar limb/horizon. Fortunately, though it’s a very temporary setup, the portable gear we use for casual solar imaging is fairly easy to set up.

From an unusual vantage point, a picture of the solar setup used today to record the passage of active region 4079 toward Sun’s horizon. The red object is the planetary camera.

We continued experiments to determine what gear will work together for imaging. There were a few surprises and there’s need for more experimentation. What we settled on for today’s solar efforts is pictured above and includes: Askar 103 APO telescope, Meade LXD75 Goto Mount, TeleVue 2X Barlow, Baader Planetarium Safety Herschel Wedge, and ZWO ASI678MM monochrome planetary camera.

The sun as it appeared at 11:32 AM EDT on May 10, 2025. Sunspot/Active Region numbers are labeled in this image with AR4079 very near the solar western limb or edge.

Although the sky was clear, seeing was a bit shaky so once again, sharpness wasn’t what we’d like. Still, in all, we got the shot we wanted and learned a few things about our astronomy equipment. Also, the sky was blue, the air was pleasant, and birds were singing, so not a bad way to spend a couple of hours.

A closeup view of the sunspot at AR4079. There is a bright line splitting the dark central umbra of the sunspot, the gray penumbra radiating in filaments around it. White cloud-like areas surround the sunspot, especially to its north; called plage, they are associated with areas of concentrated magnetic field.

Still waiting….

Photonstopper
The patio floor of the observatory awaits its observatory.

Frustration continues as we await word that the observatory has been shipped. We’ll be firing off another query of the manufacturer tonight reminding them, yet again, that we’re still waiting. Not that our questions or complaints have helped move things along. We’ll likely soon go ahead with pulling wiring through the buried conduit — utility power could be helpful even without the building. We hope to install landscape plants next week in the curved area along the north (left) edge of the patio. Our plant of choice is “Creeping Juniper”. Will we need to make some sort of temporary telescope shelter while we await our observatory (telescope shelter) in order to make better use of what we have? Maybe.

An April SolarQuest — Photobomb Included

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The Sun, as it appeared on April 17, 2025, in hydrogen-alpha light. The image was recorded using a Coronado solar telescope, a Sky-Watcher SolarQuest mount, and a ZWO ASI 678MM camera. Photo by James Guilford.

Taking advantage of midday clear skies, Thursday, we set up the hydrogen-alpha telescope and did a little observing and imaging. Seeing conditions were only good but we could make out several prominences along Sun’s limb. (The proms did not record well and we need to figure out how to enhance their visibility in our images.) Most notable, however, was the shear number of filaments in Sun’s northern hemisphere. None visible in the south! Fragments of exploding filaments launched from Sun and produced two CMEs that, when they reached Earth on April 16, caused strong geomagnetic storm activity and widespread auroras. The storm, however, died out before northern lights could be seen here.

The Sky-Watcher SolarQuest mount is shown here aiming our Coronado 60mm hydrogen-alpha solar telescope at Sun.

Aiding in our efforts was a device we used for the very first time in this session: The Sky-Watcher SolarQuest with its HelioFind system. The device is lightweight, easily supported our rather robust Coronado solar telescope, and was exceptionally easy to learn and operate. Essentially, all that was needed was to set the tripod up so that it was level, turn the device on, and let it do its thing! It is powered by four AA batteries, placed inside the unit. As an alt-az mount, no counterweights or muliti-axis balancing was needed; just mount the scope with its balance point at the center of the dovetail clamp. No remote control, no app, the compact and self-contained SolarQuest established GPS contact, leveled the scope, then looked for Sun. The SolarQuest turned and elevated the telescope, quickly acquiring our nearest star. When the motion stopped, we looked through the eyepiece to discover Sun well within the field of view. A few nudges of the system’s adjustment buttons and Sun was centered. Tracking was excellent throughout the observing/imaging session. Provision is made for further refinement of tracking but that adjustment was unnecessary for the day’s activity. The SolarQuest will make our daytime astronomy a whole lot more convenient and enjoyable!

A business-class jet airplane trailing twin contrails is seen in silhouette against the roiling surface of the sun. The image is recorded in hydrogen-alpha light. Photo by James Guilford.

We had just finished setting up for some solar astronomy and tapped the button to begin a video sequence when something flashed across the computer screen. A jet appeared for less than a second, contrails briefly persisting, silhouetted against the roiling solar disk! We’ve only seen this twice while observing Sun, this being the second time, and we only captured this image by shear luck. The first time we witnessed a solar “photo-bombing” was under similar circumstances. Previously, we had completed setup, was refining focus, and just about to begin recording exposures. We missed imaging that encounter by about the same interval as we succeeded this time!

Delays and “liberation”

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The latest from the manufacturer of our observatory structure: “The [shipping] broker advised me to wait until the 2nd of April USA time to see what extra paperwork there might be under Trump’s tariffs.” It appears to us that our tariff-loving President’s “Liberation Day” will mean more money “liberated” from our bank account.

And so, another delay in shipping, for yet another reason — they recently had to remake the shipping crate due to wood content — costing more money in the end. If the manufacturer had shipped earlier, and from our viewpoint, it appears they could have, this latest mess and expense would have been avoided — it’s not like it was a secret widespread tariffs were coming!

We can only hope all will be resolved and shipping will actually begin early this month. Will we be able to build the thing this summer, a year-plus from our original expectation?

The experience has, thus far, been frustrating, and disheartening. We have little faith the path ahead will be smoother.

Note: We know of no U.S. manufacturer of small observatories made of fiberglass or non-metal materials. These unique products are imported and subject to shipping charges and import costs such as tariffs.

Another week, another delay…

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Just when we thought the manufacturer of our observatory was actually about to ship, they report new problems causing yet another delay. This time it has something to do with a tropical cyclone hitting their port, and port officials later demanding certification that the wood pieces of the crate are safe (presumably from insect infestation) for international shipping. Now a replacement crate is being built from plastic and metal parts. This, by the way, was previously promised over the Christmas/New Year’s holiday. Still hoping we can maybe get the thing here and built sometime this summer. Another week, another delay, another sad disappointment.

Watching the best of the lunar eclipse

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The total lunar eclipse of March 13 – 14, 2025 did not disappoint! We resolved to capture images from the late partial eclipse to maximum eclipse, mostly to be able to fit in a little sleep! Catching it all, which we could from our North America location, would have required, essentially, an all-night session. Just a bit too much!

Early partial eclipse. The brighter shadow within the penumbra lights the top portion of this image. Note a bit of reddish tone within the dark umbra. 2:08 AM EDT

I sat on a pad over the paved surface where in the cold, where the observatory is to eventually stand. The old telescope mount ticking away as it tracked the moon across the sky. Occasionally geese and ducks on the nearby pond called out against some unseen disturbance. The stars of Great Orion were sinking behind nearby trees.

Moon is deep within the umbra and last penumbra light about to be left behind. 2:19 AM EDT

In the otherwise quiet chill, I watched the lunar transition, from a bright sliver left over from the night’s Full Moon, to glowing copper orb. With a cable release I manually triggered the camera’s shutter: click — pause — click, to record the event.

Maximum eclipse. Moon is fully within the umbra but because it is not traveling through the center of Earth’s deepest shadow, scattered light from the penumbra brightens the upper limb. 2:58 AM EDT

Shortly after maximum eclipse (shown above), at 2:58 AM EDT, I shut down the telescope and, casting a wistful eye at the still-darkened Moon, went indoors. 

I fed the waiting cat, changed back to pajamas, and returned to bed. In fitful sleep, somehow still cold, happy to have sacrificed rest for the experienced phenomenon.

Tech: Askar 103 ED telescope, Canon EOS 5D Mk 4 camera, Meade Goto Mount, Photoshop. ISO 400, variable exposure times.

A total lunar eclipse, not in “prime time”

Photonstopper
The coppery totality of the November 8, 2022 total lunar eclipse. The disk is darkest around the lower left, and lightest in the upper right-hand areas. Photo by James Guilford.
The total lunar eclipse of November 8, 2022, as viewed from Medina County. Photo by James Guilford.

In the wee hours of Friday, March 14, the Full Moon will pass through Earth’s shadow in space resulting in the coppery-red colors of a total lunar eclipse. While skies are expected to be clear for the event and temperatures tolerable, the show won’t be in “prime time” — maximum eclipse and color will be on display at about 2:58 AM (EDT) Friday. This will be the only total lunar eclipse of 2025.

While the timing of this year’s eclipse may be brutal, it also means the entirety of the process will be visible. By 12:55 AM (an hour after midnight, to be clear) Moon will have a strangely soft, faded appearance, then lit by the diffuse light of Earth’s outer shadow or penumbra.

The partial eclipse begins at 1:09 AM and by 1:47 AM, half of the lunar disk will be dark, hidden in Earth’s deep inner shadow called the umbra. Darkness will progress across Moon and as the last light fades from the lunar surface, color will begin to appear with the onset of totality.

A total lunar eclipse occurs when Moon passes through the central portion of Earth’s shadow, known as the umbra, where all direct light from Sun is blocked and Moon is illuminated only by scattered light passing through Earth’s atmosphere.

At 2:26 AM, with Moon totally inside the umbra, the spooky beauty will be on full display. Earth’s inner shadow is full of colored light — sunlight scattered through the planet’s atmosphere bearing the scattered colors of the globe’s sunrises and sunsets — the source of a total lunar eclipse’s hues.

Maximum eclipse is reached at 2:58 – 2:59 AM and Moon will be as dark and colorful as it can be during the process. The eclipse sequence begins to reverse after the maximum as Moon continues its passage through Earth’s shadow. Observers will note the darker and lighter portions of Moon’s face subtly rotating as the event unfolds because Moon is not passing directly through the center of the umbra — the upper portion of the disk will be near the edge of the shadow area, the lower portion closest to the center and darkest region.

The timing and appearance of the March 14, 2025 total lunar eclipse is illustrated here. Note the penumbra and umbra shadow areas and the rotating shadow distribution on the lunar surface. Movement is right to left. Illustration Credit: NASA Scientific Visualization Studio

By 6:00 AM Moon will have returned to its Full illumination as if nothing had happened. Those who potentially lost sleep watching, however, will perhaps yawn but be will gratified to have seen one of the most impressive and beautiful astronomical events available to us.

An encounter with the occult(ation)

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Only a few minutes from occultation, Mars is seen just off the lower edge of the lunar limb in this full-disk image recorded at 9:09 PM EST. The event only occurs with planet Mars about once every 14 years. Photo by James Guilford.

Clouds held off — pretty much — for us to observe the Moon occult* Mars, the reddish dot in the photo above. About once every 14 years or so, everything lines up just right and planet Mars is hidden by Earth’s Moon. Though Mars is about twice as big in diameter as our Moon, it was nearly 60 million miles farther away from Earth during the encounter — to the unaided eye, Mars looked like a tiny bright red star next to the Full Moon.

As predicted by mathematics, Mars and Moon grew nearer and nearer each other until, at 9:12 PM Eastern Standard Time (EST), the Red Planet disappeared behind our brilliant orb.

Mars, the small reddish dot in this image, nearing occultation by Earth’s Moon, as seen at 9:07 PM EST, January 13, 2025. Photo by James Guilford.
A red arrow indicates a ghostly mound that was Mars as it disappears behind Earth’s Moon at 9:12 PM EST, January 13, 2025. The dark oval to the right of Mars’s vanishing point is the lunar basin Grimaldi. Photo by James Guilford.

Passing clouds threatened to obscure the event but thanks to gaps between those clouds, there was enough clearing for observation. Shortly after Mars vanished, so did those inter-cloud gaps. With Moon now cloud-covered, we did not return to the 13℉ night to watch for Mars to emerge.

Technical: Canon 6D Mk. 2 Camera, Canon 400mm EF 1:5.6 L Lens, Canon 2X telextender, ISO 400, f/11, 1/250 second, photographic tripod.

*Occult: To cut off from view by interposing something. Commonly used as a noun to indicate something supernatural that is hidden from ordinary access.

Two Moons, One Day

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Waxing Gibbous Moon, January 10, 2025, at 7:18 PM EST. Note the delicate “C” shape on the upper left-hand edge of the lunar image — rising sun lighting the mountain tops that line Sinus Iridium while lower terrain remains in darkness. Crater Copernicus stands out at center-left, and Crater Tycho stands proudly in the heavily-bombarded lower area of the image. Note the extensive spread of ejecta rays that radiate across Moon’s surface from the relatively recent formation of Tycho. Photo by James Guilford.

It was a clear night so, of course, I had to go outside and take a look. Cold too, at 13℉, so I didn’t stay long! Mars, Jupiter, and Saturn were easy to find, all three shining bright. I was out for a “Moon shot”, though, got a pretty good one. This was made using our Sun shot setup, minus solar filter, of course! Moon was beginning its occultation of the Pleiades which didn’t image well.

The day was clear, as well, and Moon was clear and bright even against the blue daytime sky. So, here is our neighboring world rising through the trees. This is presented second, instead of at the top, because we prefer the nighttime image.

Waxing Gibbous Moon. January 9, 2025, at 4:08 PM EST. Photo by James Guilford.

Dome mounted to walls

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The dome has been mated to the curved base walls of the observatory, on the factory floor. Photo courtesy Sirius Observatories.

Another update from its maker informs us our observatory has reached another milestone with the dome now mated to the curved base walls. While construction is not yet finished, we’re told arrangements are being made for shipping. We’re trying to not get too excited — by the time the observatory arrives here, winter will have arrived and we’ll probably have to store our precious purchase until spring!