November 23, 2024

Snow Moon – 10:40pm 2/15/2022 EST

Snow Moon – 10:40pm 2/15/2022 EST

Telescope: 8” Meade Wide Field LX200GPS @ f/6.3 (Native), Baader Mk III MPCC

Camera: ZWO ASI 294MC

Filter: GSO IR Blocking Filter

Exposure: 128×0.001sec, Gain 200, saved as TIFF

Seeing: Fair, 3/5

White Balance: Nebulosity Automatic

Software: SharpCap Pro, Registax, Nebulosity, Photoshop

This image was taken as part of in initial test using a Baader Mk III MPCC with this wide field 8” SCT and the original, uncooled version of the ASI 294MC. I’m configuring this for remote observing, but it is working so well that I’m going to conduct some additional tests to see how well it works for general purpose imaging.

First Quarter Moon – 8:30pm 2/8/2022 EST

First Quarter Moon – 8:30pm 2/8/2022 EST

Telescope: 8” Meade Wide Field LX200GPS @ f/6.3 (Native), Altaz mode

Camera: ZWO ASI 294MC

Filter: Orion Imaging Skyglow Filter

Exposure: 128×0.003sec, Gain 200, saved as TIFF

Seeing: Poor, 2/5

White Balance: Nebulosity Automatic

Software: SharpCap Pro, Registax, Nebulosity, Photoshop

This is a quick stack of images that I grabbed of the moon while setting up my gear for an evening of remote observing. This was taken with the original, uncooled version of the ASI 294MC which is a wonderfully simple, lightweight, and effective camera for this type of work.

 

Waxing Gibbous Moon – 6:40pm 2/5/2022 EST

Waxing Gibbous Moon – 6:40pm 2/5/2022 EST

Telescope: 8” Meade Wide Field LX200GPS @ f/6.3 (Native), Altaz mode

Camera: ZWO ASI 294MC

Filter: Orion Imaging Skyglow Filter

Exposure: 64×0.005sec, Gain 200, saved as TIFF

Seeing: Fair, 3/5

White Balance: Nebulosity Automatic

Software: SharpCap Pro, Registax, Nebulosity, Photoshop

This is a quick stack of images that I grabbed of the moon while setting up my gear for an evening of remote observing; my gear outside, me inside. This was taken with the original, uncooled version of the ASI 294MC which is a wonderfully simple, lightweight, and effective camera for this type of work.

(1) Ceres – Asteroid in Taurus – 11/22/2021, 10:00pm EST

(1) Ceres – Asteroid in Taurus – 11/22/2021, 10:00pm EST

Telescope: Astro-Tech 8” f/8 Ritchey-Chretien, Orion Atlas EQ-G

Camera: Canon EOS Ra, Baader Mk III MPCC

Filter: Orion Imaging Skyglow Filter

Guide scope: Astro-Tech 60mm, Starlight Xpress Super Star, PHD2

Exposure: 30x60sec, ISO 800, saved as RAW

Darks: Internal (Long Exposure Noise Reduction On)

Flats: 32×1/2sec, Tee shirt flats taken at dusk

Average Light Pollution: Red zone, Bortle 8, fair transparency, bright moonlight

Lensed Sky Quality Meter: 18.0

Stacking: Mean with a 1-sigma clip.

White Balance: Nebulosity Automatic

Software: Backyard EOS, Deep Sky Stacker, Nebulosity, Photoshop

The short streak in the center of this field shows the apparent motion of (1) Ceres over the period of about 30 minutes on the evening of November 22, 2021, at 10:00pm local time. Ceres was the first asteroid discovered as part of a methodical search for a ‘missing’ planet between the orbits of Mars and Jupiter that began in 1800. Giuseppe Piazzi, from Palermo, Sicily, discovered Ceres on January 1, 1801, and it just happens to be the largest and most massive asteroid in the solar system. Ceres is 590 mile in diameter and was 164 million miles away shining at magnitude 7.1 in Taurus crossing the Hyades star cluster when this image was taken.

Ceres is still in Taurus, but has since moved off to the west and now lies south of the Pleiades star cluster. Although it is currently 203 million miles away it is still relatively bright at magnitude 8.2 and is an easy target for binoculars or small telescope.

The James Webb Space Telescope – 1/3/2022 22h30m EST

The James Web Space Telescope – 1/3/2022 22h30m EST

Telescope: GSO 8” f/12 Classical Cassegrain @ f/12, Orion Atlas EQ-G

Camera: Canon EOS Ra, Baader Mk III MPCC

Filter: 2” GSO IR Blocking Filter

Guide scope: Astro-Tech 60mm, Starlight Xpress Super Star, PHD2

Exposure: 17x180sec, ISO 800, saved as RAW

Darks: Internal (Long Exposure Noise Reduction On)

Flats: 32×1/20sec, Tee shirt flats taken at dusk

Average Light Pollution: Red zone, Bortle 8, fair transparency

Lensed Sky Quality Meter: 18.4 mag/arc-sec^2

Stacking: Mean with a 1-sigma clip (sky); maximum (JWST).

White Balance: Nebulosity Automatic

Software: Backyard EOS, Deep Sky Stacker, Nebulosity, Photoshop

The dashed line crossing to the left of center in this field is the James Webb Space Telescope as it was approximately 538,000 miles out crossing Monoceros on its way to a halo orbit around the Earth’s L2 Lagrange point. I located the field using an ephemeris generated by the JPL Horizons Web App. Shining at about 15th magnitude I initially thought that I had missed the telescope as I was getting different positions from different sources. Just like my annual pilgrimage to Pluto, the telescope wasn’t the star that I thought it was in the source images. When I was about to give up, thinking that it wasn’t in the field, I blinked the first and last pictures in the sequence. After several minutes of searching I finally spotted the telescope moving on the left side of the source field. I then re-processed the source images using a normal mean with a sigma clip to stack the background sky, and a maximum combine to stack the images of the telescope. There were combined into a single image in Photoshop and cropped to center the telescope as best I could. The track shows as a series of short dashes, each dash showing the apparent motion of the telescope during the 3-minute exposure. The gaps in the track are from the 3-minute darks taken between each frame and the time needed to transfer the image to my computer. The motion itself is mostly parallax from the rotation of the Earth and not the telescope itself.

When the telescope arrives on-station it is expected to fade to about magnitude 17 where it should be within easy reach of cameras and small telescopes. The telescope will also be located near the Earth’s shadow, so it should remain well placed in the evening sky throughout most of the night. Neat stuff!

Venus in Daylight – 12/26/2021 4:00pm EST

Venus in Daylight – 12/26/2021 4:00pm EST

Telescope: LXD75 SC8 @ f/10, Twilight I mount

Camera: Stock Canon 600D, remote switch

Filter: GSO IR Blocking Filter

Exposure: 40×1/3000sec, ISO 400, saved as RAW

White Balance: Nebulosity Automatic

Software: Autostakkert, Nebulosity, Photoshop

I wanted to try and catch Venus before we lost it to the sun’s glare and with the weather forecast looking bleak for the next week I decided to take a peek with my SC8 while I had it out from earlier today observing the moon in daylight. Venus was easy to locate by setting my telescope’s altitude using an inclinometer and sweeping east of the sun. In my finder Venus quickly appeared as a tiny crescent, and through the scope it looked beautiful, being less than 6% illuminated and only about 27 million miles away and about to pass between the Earth and the sun. I replaced my star diagonal with my stock 600D, centered and focused Venus using live view, and took a several series of images, pausing to reset the field between sets. The source images were centered and cropped in Photoshop, stacked in Autostakkert, binned 2×2 in Nebulosity, and finished back in Photoshop.

Venus in currently very low in the southwest at dusk.

Waning Crescent Moon – 11/29/2021 6:25am EST

Waning Crescent Moon – 11/29/2021 6:25am EST

Telescope: Astro-Tech RC8 @ f/8, Orion Atlas EQ-G

Camera: Canon EOS Ra, Baader Mk III MPCC

Filter: Orion Imaging Skyglow Filter

Exposure: 64×1/800 sec, ISO 3200, saved as RAW

Seeing: Fair, 3/5

White Balance: Nebulosity Automatic

Software: Backyard EOS, Registax, Nebulosity, Photoshop

This was a quick peek at the moon taken right before covering my gear after a long night of imaging. The setting sun is setting over Sinus Iridum near the moon’s northern limb and you can glimpse Mare Orientale just peeking over the southwestern limb. Mare Orientale is one of my favorite lunar features even though it is often hidden just out of view on the moon’s backside, though you can often see the impact basin’s ring mountains in profile against the black sky. This is also the location of the famous “bull’s eye” picture taken by Lunar Orbiter 4 in 1967.

Comet C/2021 A (Leonard) 11/29/2021 03h53m EST

Comet C/2021 A (Leonard) 11/29/2021 03h53m EST

Telescope: Astro-Tech 8” f/8 Ritchey-Chretien, Orion Atlas EQ-G

Camera: Canon EOS Ra, Baader Mk III MPCC

Filter: Orion Imaging Skyglow Filter

Guide scope: Astro-Tech 60mm, Starlight Xpress Super Star, PHD2

Exposure: 36x120sec, ISO 800, saved as RAW

Darks: Internal (Long Exposure Noise Reduction On)

Flats: Synthetic

Average Light Pollution: Red zone, Bortle 8, poor transparency, moonlight, haze

Lensed Sky Quality Meter: 18.4

Stacking: Average

White Balance: Nebulosity Automatic

Software: Backyard EOS, Nebulosity, Photoshop

Comet C/2021 A Leonard is a faint comet currently crossing Coma Berenices in the morning sky. When this image was taken the comet was glowing with a total integrated magnitude of 7.1 and was 53.8 million miles away above the Earth’s northern hemisphere. The trailing stars show the apparent motion of the comet over the period of 140 minutes.

Comet Leonard is currently well placed high in the northeast at dawn.

Comet C/2021 A Leonard 11/23/2021 05h35m EST

Comet C/2021 A Leonard 11/23/2021 05h35m EST

Telescope: Astro-Tech 8” f/8 Ritchey-Chretien, Orion Atlas EQ-G

Camera: Canon EOS Ra, Baader Mk III MPCC

Filter: Orion Imaging Skyglow Filter

Guide scope: Astro-Tech 60mm, Starlight Xpress Super Star, PHD2

Exposure: 10x120sec, ISO 800, saved as RAW

Darks: Internal (Long Exposure Noise Reduction On)

Flats: 32×1/20ec, Tee shirt flats taken at dusk

Average Light Pollution: Red zone, Bortle 8, fair transparency, moonlight

Lensed Sky Quality Meter: 18.2

Stacking: Mean with a 1-sigma clip.

White Balance: Nebulosity Automatic

Software: Backyard EOS, Deep Sky Stacker, Nebulosity, Photoshop

Comet C/2021 A Leonard is a faint comet currently crossing Canes Venatici in the morning sky. When this image was taken the comet was glowing with a total integrated magnitude of 8.2 and was 73.8 million miles away above the Earth’s northern hemisphere. The trailing stars show the apparent motion of the comet over the period of 40 minutes.

Comet Leonard is currently well placed high in the northeast at dawn.

Comet 67P/Churyumov-Gerasimenko

Comet 67P/Churyumov-Gerasimenko 11/6/2021 4h15m EST

Telescope: ES Comet Hunter MN6 at f/4.8, Orion Atlas EQ-G

Camera: Baader modified Nikon 610

Filter: 2” Orion Imaging Skyglow Filter

Guide scope: Williams Optics 50mm, ASI290MM mini, PHD

Exposure: 34x60sec, ISO 400, saved as RAW

Darks: Internal (Long Exposure Noise Reduction On)

Flats: 32×1/250sec, tee shirt flats taken at dusk

Average Light Pollution: Red zone, Bortle 8, good transparency

Lensed Sky Quality Meter: 18.7

Stacking: Mean with a 1-sigma clip.

White Balance: Nebulosity Automatic

Software: Backyard Nikon, Nebulosity, Deep Sky Stacker, Photoshop

This image shows the motion of Comet 67P/Churyumov-Gerasimenko between 4:15am and 5:15am EST on the morning of 11/6/2021 as is swept past upsilon Gemini to the upper right in this field. The comet was glowing at about magnitude 9.9 at a distance of 39 million miles. Comet 67p is the resting site of the ESA Rosetta probe and Philae lander.

Comet 67P/Churyumov-Gerasimenko is currently crossing Gemini in the morning sky.