Another Hercules Cluster

Here is a lovely view of the Hercules cluster, from imaging taken by Nathan Wolthuis ’21, and his co-observers earlier this semester.

Hercules Cluster (M13) by Nathan Wolthuis ’21.

Nathan explains: “This is a 3 color image (​B​,​r,​ & i) of the Hercules globular cluster (M13). Globular clusters are groups of stars tightly bound by their gravitational fields that orbit galactic cores. Globular cluster gravitational fields are quite dense, which results in the populations taking on a spherical shape. It should be noted that this globular cluster in particular has many ancient low mass stars, primarily reds and yellows especially in the center. This is further reinforced through the younger bluer (and more metallic) stars having a tendency to diffuse outwards, which can be seen in the image. This image was taken using a FLI Proline CCD and 16” telescope, with the ​B filter assigned as blue, ​r a​ s green, and i​ ​as red.”

Triangulum Galaxy

This image by Elizabeth Warrick, BMC ’21 is her second attempt at imaging the Triangulum galaxy, the first one foiled by pointing issues. I’d  like to applaud Elizabeth for her persistence in getting this tricky image.

Triangulum Galaxy (M33) by Elizabeth Warrick, BMC ’21

Elizabeth explains: “The Triangulum Galaxy is a very beautiful spiral galaxy that shows the wonderful structure galaxies can hold in the night sky. In this image you see a picture of the Triangulum Galaxy (lower right quadrant) imaged in the g,r, and i filters respectively. The filters I chose to observe allow us to look at the galaxy overall using the g,r, and i filters to get a good look at the wavelengths of light. Notice the faint spiral arm structure coming out of the slightly brighter center of the galaxy.”

A Blue Pelican Nebula

This image by Roma Hdlaky ’22 was taken the night of 20th Sept 2020 at Haverford College.

Blue Pelican Nebula, by Roma Hdlaky ’22

Roma explains: “The Pelican nebula is a cloud of gas and dust. The Pelican nebula is extremely high in H-alpha which is prevalent with active star formation.

The blue [emission] in the center is produced by the H-alpha filter. OIII and SII filters were also used and stacked in this image, but were faint in comparison to H-alpha.”

A Purple Pelican Nebula

Today’s student image from the Advanced Observational Astrophysics class is a purple view of the Pelican Nebula, by Kate Matthews ’22.

The Pelican Nebula, by Kate Matthews ’22

Kate explains: “The image above is of the Pelican Nebula (IC 5070), a nebula with magnitude 8.0 located 1,800 light years away from Earth in the constellation Cygnus. This color image consists of 30 individual overlaid images with an exposure time of 120 seconds each, giving the final image a total exposure time of 1 hour. These images were taken with the CCD on the 16” telescope at the Strawbridge Observatory on September 20, 2020.

The Pelican Nebula is an HII region, meaning it is an emission nebula made up of gas clouds ionized by very hot, nearby stars. To capture several different ionized gases in the nebula, we used 3 emission line filters when taking the images: Hα, OIII, and SII, which refer to ionized hydrogen, doubly ionized oxygen and ionized sulphur, respectively. Each filter was assigned a color when creating the final composite image, specifically magenta for Hα, green for OIII, and blue for SII. Due to the large amount of energy required to ionize hydrogen, Hα emission is a common indicator of new star formation.”

Multi-colorful Helix Nebula

Continuing our series of images taken by students in “Advanced Observational Astrophysics” running Fall 2020, here are two color palettes showing off the beautiful Helix nebula, by Ross Silvers ’22.

Helix Nebula in two colors, by Ross Silvers ’22.

Ross explains: “Pictured above is an image of the Helix Nebula (​NGC 7293) created from a 16’’ telescope and CCD. We took eleven exposures at 120 seconds each for emission lines in each filter (​Hα, OIII, and SII)​ from ionized gas in the nebula. Emission spectroscopy allows us to read electromagnetic radiation from chemical elements in an astronomical object. In this case, we were able to compile the images and assign pigmentation to each emission filter to create a full color image. Classically, red, blue, and green colors are assigned to each layer, but I chose to create a different image, using magenta, yellow, and cyan. The first image shows ​Hα in magenta, oIII in cyan, and sII in yellow. The second image has Hα in yellow, oIII in cyan, and sII in magenta, for a slightly different composite image. Sometimes, the Helix Nebula is nicknamed “The Eye of Sauron” as a reference to the Lord of the Rings addressing the eye-like shape of the nebula!”

The Helix Nebula (NGC 7293)

Imaging and text by James Garland ’22.

At the center of the Helix Nebula, a star late in its life sheds layers of its atmosphere. The star’s remaining heated core illuminates the surrounding gaseous shells, ionizing atoms and in turn producing light. In this three-color image, we capture this light which has been imprinted with the identities of the elements that emitted it: hydrogen-alpha (H𝛼), doubly ionized oxygen (OIII), and singly ionized sulfur (SII). These elemental snapshots, presented in red, green, and blue respectively, allow us to better view and understand the nebula’s structure.

Helix Nebula (NGC 7293) in H𝛼, [OIII] and [SII] by James Garland ’22
Eleven 120 second exposures were taken in each filter with the Proline PL16803 CCD on the 16” telescope at Strawbridge Observatory. The exposures were aligned and stacked in AstroImageJ. The resulting three images were combined to make an RGB composite, which was adjusted for contrast and color balance. The original image captured a 30 x 30 arcminute field of view, roughly equivalent to the diameter of the Moon. Here, it has been cropped to a size of 27.6 x 27.6 arcminutes. The image was taken on the night of September 19, 2020.

Imaging the Hercules Cluster

This image of Messier 13 (The Hercules Cluster) was taken by Autumn Winch, BMC ’22 as an assignment for Astro341: Advanced Observational Astrophysics this semester.

Messier 13 (The Hercules Cluster) Bri composite using FLI Proline CCD on 16″ Meade.

Autumn explains “Above is an image of Messier 13 (M13), also known as the Hercules Cluster. M13 is a globular cluster and is home to around three hundred thousand stars, both young and old. It rests within the Hercules constellation and is quite bright within the Northern Hemisphere (through a telescope).

Images were taken on September 18-19, 2020 from hours 11pm to 1am at Strawbridge Observatory. Vega was used as its meade star. The composite picture consists of three filters. The B filter gives us blue, the i filter gives us red, and the r gives us green. In the end we have a light lavender rose color. Stars vary in color mostly due to temperature. Different temperatures emit different wavelengths of light. These varied wavelengths give a wide spectrum of colors, not all visible to the human eye. The filters control which wavelengths of light are admitted through.

Lucky for us, Messier 13 is up in the sky for most of the year. It has its highest visibility in the summer, but still looks beautiful in the early autumn.”

Imaging the Moon and Mars in Conjunction

This pair of images, by Jesse Zeldes ’22 were an assignment for Astro341: Advances Observational Astrophysics, which is running through the Fall 2020 semester.

These images show Mars and the Moon during their Sept 5th 2020 conjunction taken through 3 separate filters using the CCD on our 16″ telescope.

Jesse explains: “Because the Moon orbits Earth, while Mars orbits the Sun, even images taken in quick succession show the relative motion between them. Here we have the same set of images of the Moon and Mars in conjunction on September 5, 2020, processed in two different ways. ”

Here the images are aligned such that the Moon remains in place, showing the motion of Mars as the three different colored dots at upper left.
Her the images are aligned such that Mars does not move, giving the Moon the unusual colorful “blur”

Jesse continues: “The images consist of five 0.07 second exposures in each of the g, r and i filters, taken using our Finger Lakes Instrumentation CCD, which has a 0.5degree field of view. These exposures are then stacked to create a single image for each filter, which are then stacked to create the final image. g-band data (denoted blue) were taken first, following by i (red) and r (green), with approximately 20-second delays in between each”.

Stay tuned for more colourful CCD images from our 16″ from the thirteen other students in this class.

Observing Jupiter and Saturn

Today is the Full Moon, and if it weren’t for Tropical Storm/Hurricane Isaiah on its way, we’d get a wonderful view of the Moon, Jupiter and Saturn this evening, as this screenshot from Stellarium (free download) shows.

The Moon, Jupiter and Saturn would be visible above the SE horizon this evening after sunset.

Meanwhile you might also enjoy these views of Jupiter and Saturn taken by James Garland ’22 and Dominick Rowan ’20 last October.

Saturn through the Strawbridge 16″. Credit: James Garland.
Jupiter through the Strawbridge 16″. Credit: James Garland.

 

 

 

 

 

We hope we’ll be able to invite you to visit our telescopes at some point in the future. Meanwhile for the Fall we are working on a virtual alternative to our usual Public Observing Nights. Stay tuned!

 

First Light for our New CCD

We had an opportunity to upgrade the CCD (digital camera) on our 16″ telescope this year. I am happy to report a beautiful first light image of the Orion Nebula. Much credit to our Lab Instructor, Paul Thorman for making this happen. This will make for much more exciting imaging and photometry opportunities for our Observational classes as well as Public Observing events.

As well as an update to our CCD, and with a much larger field of view than before (now 34 arcmin, or half a degree on a side instead of 8×12 arcmin) we also got more filters, which will improve our ability to make colour images, as well as measure photometric properties in more filter bands.

A view of the Orion Nebula (M42) through B and V filters with our new CCD. Credit: Paul Thorman

 

A B-band single filter view showing the full field of view of the new CCD. Credit: Paul Thorman