Category Archives: Outreach

Time-lapse: The Sky over Siding Spring Observatory

Posted on September 25, 2014 | 4 comments

DP ENGLISH: This story belongs to the series “Double Post” which indicates posts that have been written both in English in The Lined Wolf and in Spanish in El Lobo Rayado.

DP ESPAÑOL: Esta historia entra en la categoría “Doble Post” donde indico artículos que han sido escritos tanto en español en El Lobo Rayado como en inglés en The Lined Wolf.

I’ve been waiting year and a half to finally see this happening. One of the displays I prepared for the Stories from Siding Spring Observatory Photo Exhibition (that was organized by staff of the Australian Astronomical Observatory (AAO) and originally released on 17th April 2013 at the Sydney Observatory), was a new time-lapse video compiling scenes showing all the telescopes at the Siding Spring Observatory (Coonabarabran, NSW, Australia) before the terrible bushfires that destroyed the Warrumbungle National Park and seriously affected the very same Observatory on 13th January 2013. However I couldn’t do this time-lapse video public until today, as it is the very first video to be included in the AAO Youtube channel. So here it is the time-lapse video “The Sky over Siding Spring Observatory:

Video time-lapse The Sky over Siding Spring Observatory. To enjoy it as its best, I strongly recommend you to see it at its highest resolution (FullHD) and full screen in a dark room. Credit: Video Credit: Ángel R. López-Sanchez (AAO/MQ), Music: Point of no return (Rogert Subirana).

I think this is the best time-lapse video I have created so far. It last 4:30 minutes and it compiles the best time-lapse sequences I obtained at Siding Spring Observatory between August 2011 and March 2013, during my support astronomer duties for the 4-metre Anglo-Australian Telescope (AAT). Telescopes at Siding Spring Observatory featured include the Uppsala Near Earth Object Survey Telescope, the UNSW Automated Patrol Telescope, the 2.3m ANU Telescope, 1.2m Skymapper ANU, the 1.2m UK Schmidt Telescope (AAO) and the very own Anglo-Australian Telescope (AAT).

Throughout the video, watch for several astronomical objects: our Milky Way Galaxy, the Large and Small Magellanic Clouds, the Moon rising and setting, the planets Venus, Mars, Jupiter and Saturn, Zodiacal Light, Earth-orbiting satellites, airplanes crossing the sky, the Pleiades and Hyades star clusters, the Coalsack and the Carina nebulae, and famous constellations like the Southern Cross, Taurus, Orion, and Scorpio.

The time-lapse technique consists of taking many images and then adding all to get a movie with a very high resolution. In particular, the camera CANON EOS 600D and two lenses (a 10-20 mm wide-angle lens and a standard 35-80 mm lens) were used to get the frames of this time-lapse video. Except for those frames taken during the sunset in the first scene, frames usually have a 30 seconds exposure time, with a ISO speed of 1600. Some few scenes were shot using 15 or 20 seconds exposure time. All sequences were created at 24 fps (frames per second), and hence a second in the movie corresponds to 12 minutes in real time for the majority of the scenes. In total, the video combines around 5800 individual frames. Processing each 10 – 20 seconds sequence took between five and six hours of computer time. Care was taken to remove artifacts and hot pixels from individual frames, minimize background noise, and get an appropriate colour/contrast balance.

I hope you like it. Comments and posting about it in social media are very welcome.

More information and previous time-lapses

Video in the AAO YouTube Channel.

AAO Webpage: Timelapse Video: The Sky Over Siding Spring Observatory (25th Sep 2014)

Timelapse video: The Sky over the Anglo-Australian Telescope (3rd May 2013).

Timelapse video: A 2dF night at the Anglo-Australian Telescope (7th May 2014).

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Posted in Amateur, Astrophotography, Observation, Observatories, Outreach, Personal, Timelapses

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A 2dF night at the Anglo-Australian Telescope

Posted on May 6, 2014 | 7 comments

One of the most complex astronomical instruments nowadays available is the Two Degree Field (2dF) system at the Anglo-Australian Telescope (AAT, Siding Spring Observatory, NSW, Australia). The main part of 2dF is a robot gantry which allows to position up to 400 optical fibers in any object anywhere within a “two degree field” of the sky.

The 2dF instrument attached to the primary focus of the AAT. Note that the mirror of the telescope is opened. This image was chosen to be part of the Stories from Siding Spring Observatory Photo Exhibition the AAO organized last year.
Credit: Á.R.L-S.

392 optical fibers are fed to the AAOmega spectrograph, which allows to obtain the full optical spectrum of every object targeted by an optical fiber. The remaining 8 optical fibers are actually fibre-bundles and are used to get an accurate tracking of the telescope while astronomers are observing that field, which may last up to 3 hours. 2dF possesses two field plates: one located at the primary focus of the telescope and another at the position of the robot gantry. While a field is being observed in one plate, 2dF configures the next field on the other plate. A tumbling mechanism is used to exchange the plates. 2dF was designed at the AAO in the late 90s and, since then, it has been used by a large number of international astrophysicists. In a clear night, 2dF can obtain high-quality optical spectroscopic data of more than 2,800 objects.

Indeed, this sophisticated instrument has conducted observations for hundreds of astronomical projects, including galaxy surveys such as the 2dF Galaxy Redshift Survey, the WiggleZ Dark Energy Survey, and the Galaxy And Mass Assembly (GAMA), survey which is still on going and in which I actively participate. The optical fibers of 2dF can be also fed the new HERMES spectrograph, which is now starting the ambitious Galactic Archaeology with HERMES (GALAH) survey at the AAT. GALAH aims to observe around 1 million galactic stars to measure elemental abundances and measure stellar kinematics.

Frame of the time-lapse video “A 2dF night at the Anglo-Australian Telescope”. The 2dF robot gantry moving and positioning the optical fibers. Credit: Á.R.L-S.

How does 2dF move and position the optical fibers? A very nice way of explain it is using the time-lapse technique, that is, taking many images and then adding all to get a movie of the robot while moving and positioning the fibers. That is why in 2012 I decided to create the video, A 2dF night at the AAT, which assembles 14 time-lapse sequences taken at the AAT during September and November 2011 while I was working at the AAT as support astronomer of the 2dF instrument. Actually, this time-lapse video shows not only how 2dF works but also how the AAT and the dome move and the beauty of the Southern Sky in spring and summer. The time-lapse lasts for 2.9 minutes and combines more than 4000 frames obtained using a CANON EOS 600D provided with a 10-20mm wide-angle lens.

Time-lapse video “A 2dF night at the AAT”. I recommend to follow the link to YouTube and watch it at HD and full screen in a dark room. Credit: Á.R.L-S.

The video consists in three kinds of sequences created at 24 frames per second (fps). The first 3 sequences show how the 2dF robot gantry moves the optical fibers over a plate located at the primary focus of the telescope. Although in real life 2dF needs around 40-45 minutes to configure a full field with 400 fibers, the time-lapse technique allows to speed this process. The first 2 sequences have been assembled taking 1 exposure per second, therefore 1 second of the video corresponds to 24 seconds in real life. The third sequence considers an exposure each 3 seconds, and hence it shows the robot moving very quickly. The next four sequences show the movement of the telescope and the dome. All of them were obtained taking 2 images per second (a second in the movie corresponds to 12 seconds in real life). The long black tube located at the primary focus of the telescope is 2dF. The remaining sequences, all obtained during the night, were created taking exposures of 30 seconds, and hence each second in the video corresponds to 12 minutes in real life.

Frame of the time-lapse video “A 2dF night at the Anglo-Australian Telescope”. The AAT telescope, with 2dF (the long, black tube) attached at its primary focus, is prepared to start observing. Credit: Á.R.L-S.

Astronomical time-lapse videos allow to see the movement of the Moon, planets and stars in a particular position in the Earth, something that conventional videos cannot achieve. In particular, dim stars and faint sky features, such as the Milky Way with its bright and dark clouds and the Magellanic Clouds, can be now easily recorded. As in my first time-lapse video, The Sky over the AAT, I set the camera up at the beginning of the night, let it run, and check on its progress occasionally. I used at focal of f5.6 and an ISO speed of 1600 ISO for the night sequences.

Frame of the time-lapse video “A 2dF night at the Anglo-Australian Telescope”. The Magellanic Cloud rise while the Milky Way sets over the Anglo-Australian Telescope at Siding Spring Observatory on 3 Nov 2011. Some kangaroos can be seen in the ground. Credit: Á.R.L-S.

However, the procedure that took more time was processing the hundreds of individual photographies included in each sequence. In many cases, I needed more than 12 hours of computer time, including 3 or 4 iterations per sequence, to get a good combination of low noise and details of the sky, plus “cleaning” bad pixels or cosmic rays. In particular, for this video I tried hard to show the colours of the stars, a detail which is usually lost when increasing the contrast to reveal the faintest stars. In the last sequence of the video, Aldebaran and Betelgeuse appear clearly red, while the stars in the Pleiades and Rigel have a blue color.

Frame of the time-lapse video “A 2dF night at the Anglo-Australian Telescope”. A dark night at The Anglo-Australian Telescope (23 Sep 2011). Orion constellation is seen over the AAT dome. The red colour of Alderaban and Betelgeuse and blue colours of Pleiades and Rigel are clearly distinguished. Credit: Á.R.L-S.

As I did for my previous time-lapse, here I also included a sequence which shows the trails created by the stars as they move in the sky as a consequence of the rotation of the Earth. This sequence shows the Celestial Equator and stars at the South (top) and North (bottom) Celestial Hemisphere. Note that star trails have indeed many different colours. Other details that appear in this time-lapse video are clouds moving over the AAT, satellites and airplanes crossing the sky, the nebular emission of the Orion and Carina nebulae, the moonlight entering in the AAT dome, and kangaroos “jumping” in the ground.

Frame of the time-lapse video “A 2dF night at the Anglo-Australian Telescope”. Startrails over the Anglo-Australian Telescope on 23 Sep 2011. The colours of the stars are clearly seen in this image, which stacks 1h 6min of observing time. Credit: Á.R.L-S.

Finally, I chose an energetic soundtrack which moves with both 2dF and the sky. It is the theme Blue Raider of the group Epic Soul Factory, by the composer Cesc Villà. Actually, all sequences were created to fit the changes in the music, something that also gave me some headaches. But I think the result was worth all the effort.

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Posted in Amateur, Astrophotography, Observation, Observatories, Outreach, Profesional, Stars, Timelapses

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First “AAO Guerrilla Astronomy” event: partial solar eclipse on 29 April 2014 over Sydney Harbour

Posted on May 1, 2014 | 1 comment

Last Tuesday 29th April the Earth, the Moon, and the Sun aligned to produce one of the most spectacular astronomical phenomena we can see: a solar eclipse. The 29th April solar eclipse was actually not a total eclipse (i.e., the disc of the Moon didn’t cover all the disc of the Sun) but an Annular eclipse. The annular phase could be only visible in Antarctica, but a partial solar eclipse was seen throughout Australia in the late afternoon. More information about this solar eclipse can be found in the NASA Eclipse Website managed by the astrophysicist Fred Espenak.

The Sun would be eclipsed by the Moon during the sunset, it was then a perfect opportunity to get some nice photos of the eclipsed Sun with some famous buildings such the Sydney Opera House or Sydney Harbour Bridge. With this excuse, but also with the idea of showing the wonders of Nature to the public, a group of astrophysicists working at Australian Astronomical Observatory (AAO) decided use this solar eclipse to organize our first “Guerrilla Astronomy” event (*). The aim of these activities is to set up amateur telescopes in a public area (a park or a shopping center) and explain to the public who is around what Astronomy is, what astronomers do, and what the “Australian Astronomical Observatory” is. More of these events are coming in the future, but this was our first “test” to see how we can organize and manage the activity.


Participants to the first AAO “Guerrilla Astronomy” Event. From right to left, Stuart Ryder (AAO/AusGO), Kyler Kuehn (AAO), Paola Oliva-Altamiro (Swinburne/AAO) and Ángel R. López-Sánchez (AAO/MQ). The laptop shows the only good image we could get of the eclipse using my telescope. Mrs Macquarie Chair, Sydney Botanic Gardens / Domain, 29 Apr 2014.
Photo Credit: Stuart Ryder (AAO/AusGO).

Given the time and position of the Sun during the eclipse, we decided that a really nice spot to prepare our telescopes would be Mrs Macquarie Chair point, in the Domain, Sydney Botanic Gardens. From there a very dramatic view of the Sydney Opera House and the Sydney Harbour Bridge is seen. We first requested permission to do this to the authorities of the Domain, who were really nice and even allowed us to park by free. Actually, they also came along to see the eclipse and they liked our idea of organizing more “Guerrilla Astronomy” events there in the nearby future.


All set up for eclipse: two telescopes (Stuart’s at the right, mine at the left), the AAO banner, my laptop and camera to take photos through the telescope, the eclipse glasses and extra information about the eclipse to give to the visitors. Mrs Macquarie Chair, Sydney Botanic Gardens / Domain, 29 Apr 2014.
Photo Credit: Ángel R. López-Sánchez (AAO/MQ).

It was four of us, Stuart Ryder (AAO/AusGO), Kyler Kuehn (AAO), Paola Oliva-Altamiro (Swinburne/AAO) and myself, who participated in this first “Guerrilla Astronomy” event. Just to have everything ready on time, we were setting up telescopes, AAO banner and laptop around an hour before the beginning of the eclipse. The weather seemed very clear in the morning, but in the afternoon, as we feared, some clouds started to arrive from the west. We already knew this would be a killer… but we had to try!


Kyler and visitor using the solar glasses. First AAO “Guerrilla Astronomy” Event: partial solar eclipse on 29 April 2014 over Sydney Harbour. Mrs Macquarie Chair, Sydney Botanic Gardens / Domain.
Photo Credit: Paola Oliva-Altamiro (Swinburne/AAO).


Little girl using the eclipse glasses. First AAO “Guerrilla Astronomy” Event: partial solar eclipse on 29 April 2014 over Sydney Harbour. Mrs Macquarie Chair, Sydney Botanic Gardens / Domain.
Photo Credit: Paola Oliva-Altamiro (Swinburne/AAO).


Visitors, but clouds please go away! First AAO “Guerrilla Astronomy” Event: partial solar eclipse on 29 April 2014 over Sydney Harbour. Mrs Macquarie Chair, Sydney Botanic Gardens / Domain.
Photo Credit: Paola Oliva-Altamiro (Swinburne/AAO).

We actually were a bit lucky at the beginning, and hence we could see the Sun within thin clouds and follow the eclipse for 10 minutes. I even could take a nice image:


Partial Solar Eclipse from Sydney on 29 Apr 2014. Telescope Skywatcher Black Diamond D = 80 mm, f = 600 mm + CANON EOS 600D at primary focus + Solar filter. Just 1 frame at ISO 400, 1/8 s, colour processing using Photoshop. 29 April 2014 @ 16:20 AEST ( 06:20 UT ). First AAO “Guerrilla Astronomy” Event: partial solar eclipse on 29 April 2014 over Sydney Harbour. Mrs Macquarie Chair, Sydney Botanic Gardens / Domain.
Photo Credit: Ángel R. López-Sánchez (AAO/MQ).

After that, thick clouds arrived and this happened:

5-seconds timelapse video obtained combining 25 images taken with Telescope Skywatcher Black Diamond D = 80 mm, f = 600 mm + CANON EOS 600D at primary focus + Solar filter, at ISO 400, 1/8 s, showing how the clouds completly cover the eclipsed sun. 29 April 2014 @ 16:20 AEST ( 06:20 UT ). The direct link to the YouTube video is here.
Credit: Ángel R. López-Sánchez (AAO/MQ).

Once the Sun was completely covered by thick clouds we just waited and hoped for a little gap, but unfortunately this never happened and we didn’t see the Sun again that day.


Stuart and his telescope, Kyler and visitors, all hoping the clouds go away. First AAO “Guerrilla Astronomy” Event: partial solar eclipse on 29 April 2014 over Sydney Harbour. Mrs Macquarie Chair, Sydney Botanic Gardens / Domain.
Photo Credit: Paola Oliva-Altamiro (Swinburne/AAO).


The eclipsed sun is setting behind those think clouds. First AAO “Guerrilla Astronomy” Event: partial solar eclipse on 29 April 2014 over Sydney Harbour. Mrs Macquarie Chair, Sydney Botanic Gardens / Domain.
Photo Credit: Ángel R. López-Sánchez (AAO/MQ).

Well, it would have been really nice to see the eclipsed sun setting over the Sydney Harbour Bridge and sinking later close to the Sydney Opera House, I’m sure the images and time-lapse video would have been quite spectacular, but the best I got was this image:


An eclipsed sun should be setting around there… Imagen taken using a Telescope Skywatcher Black Diamond D = 80 mm, f = 600 mm + CANON EOS 600D at primary focus. First AAO “Guerrilla Astronomy” Event: partial solar eclipse on 29 April 2014 over Sydney Harbour. Mrs Macquarie Chair, Sydney Botanic Gardens / Domain.
Photo Credit: Ángel R. López-Sánchez (AAO/MQ).

In any case, all four AAO participants were very happy about how the event was and, as I said, we are expecting to repeat these “Guerrilla Astronomy” activities in the nearby future.

Next solar eclipse to touch Australia will be on 9 March 2016, but it will also be a partial eclipse only visible on the northern and western parts of the continent. The next total eclipse to be seen from Australia will happen on 20 April 2023 and it will just touch the coast of Western Australia. We have to wait until 22 July 2028 to see a total solar eclipse in Sydney. Actually, Sydney is almost exactly in the center of the totality.

More photos of this event can be found in this Flickr Album.

(*) Note that the word “Guerrilla” comes from Spanish, however the name didn’t come from me but from an idea my colleague Amanda Bauer (AAO Outreach Officer) had some months ago. As a native Spanish speaker I have to confess it is really hard to hear the pronunciation of “Guerrilla” following English phonemes as “Guerrilla Astronomy” sounds almost identical toGorilla Astronomy“. I would encourage to try to pronounce “Guerrilla” as it is said in Spanish (geˈri.ʝa) to be released of this confusion, but of course that is only my modest suggestion than can be completely ignored…

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Posted in Amateur, Astrophotography, Observation, Outreach, Sun

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Timelapse video: The Sky over the Anglo-Australian Telescope

Posted on May 3, 2013 | 11 comments

A dark winter night, with the Milky Way crossing the firmament while its center in located near the zenith, is one of the most astonishing views we can enjoy. This vision is only obtained from the Southern Hemisphere and it is really inspiring. In particular, the Milky Way shines over the Siding Spring Observatory, near Coonabarabran (NSW), where the famous Anglo-Australian Telescope (AAT) is located. With the idea of sharing the beauty of the night sky to everybody, in May 2011 I decided to start taking timelapse photography while I was working as support astronomer at the AAT. This technique consists on taking many images and then adding all to get a movie with a very high resolution. The best shots I obtained by September 2011 were included in the video The Sky over the Anglo-Australian Telescope, which is available both in YouTube and in several MOV/MP4 files (HD, iPad, iPhone) in my personal AAO webpage.


“The Sky over the Anglo-Australian Telescope” was my first public timelapse video, released in November 2011.
Credit: Ángel R. López-Sánchez (AAO/MQ), the credit of the music is Echoes from the past, by Dj Fab.

The video, which lasts for 2.7 minutes, is the results of combining around 3800 different frames obtained using a CANON EOS 600D between June and September 2011. Except for those frames used for the sunset in the first scene, all frames have a 30 seconds exposure time, with a ISO speed of 1600. As the videos were created at 24 fps (frames per second), each second in the movie corresponds to 12 minutes in real time. I used several lens to take the images (standard 50 mm, 50mm x 0.65 focal reducer and a 10 mm wide-angle lens). The focal chosen was 5.6 (for the 50 mm lens) or 4.5 (10 mm wide-angle lens). Processing each sequence of the movie took five to six hours of computer time, and usually I had to repeat this at least once for each sequence, to improve the quality. The soundtrack I chose is an extract of the music Echoes from the past, by the french composer Dj Fab, which gives energy to the timelapse.

The Milky Way is setting at Siding Spring Observatory on 21 Sep 2011.
Click here to get the full resolution frame.
Credit: Á.R. L-S.

As my main job while I’m at the AAT is providing instrumental and scientific support to the astronomers who are observing in this telescope, I always set the camera up at the beginning of the night, let it run, and check on its progress occasionally. Sometimes this was not easy: wind knocked the camera over on a couple of times, often the battery ran out, and even once I had an encounter with some intransigent kangaroos. However, finally I got this material, which does not only show the magnificent Milky Way rising and setting above the dome of the AAT, but also stars circling the South Celestial Pole, the Magellanic Clouds over the AAT, satellites and airplanes crossing the sky, the Moon rising and setting, and the most famous constellations as Orion, Carina and the Southern Cross.

Circumpolar star traces (2.7 hours) over the Anglo-Australian Telescope on 20 Sep 2011.
Click here to get the full resolution frame.
Credit: Á.R. L-S.

I hope you enjoy the result. More timelapse videos to come soon!

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Stories from Siding Spring Observatory

Posted on April 17, 2013 | 5 comments

Tonight we’re opening the photo exhibition Stories from Siding Spring Observatory at Sydney Observatory.

Baner of the Photo Exhibition Stories from Siding Spring Observatory opening tonight at Sydney Observatory. The Exhibition will be opened to the public between 18 April 2013 and 13 August 2013. As the general visit to Sydney Observatory, it is free.
Credit: Á.R.L-S.

This photo exhibition compiles 25 photos plus four time-lapse videos taken at the Siding Spring Observatory by staff of the Australian Astronomical Observatory. I have actively participated in the organization of this photo exhibition, not only providing some photos (see below) but also the 4 time-lapse videos, one of them specifically prepared for this.

The idea of organizing the photo exhibition came after the terrible bushfires that destroyed the Warrumbungle National Park and seriously affected Siding Spring Observatory on 13th January 2013. Luckily any telescope experienced any damage and we were back at the telescopes just 1 month after the bushfires. However, some houses and facilities, including the ANU Lodge, were destroyed in the bushfires. The vegetation at the site was also seriously affected, and indeed the views from there are not now as beautiful as they were before.

As the brochure of the Exhibition quotes,

Siding Spring Observatory sits on a mountaintop in the Warrumbungle Range, 400 km northwest of Sydney and 25 km west of the town of Coonabarabran. Run by the Australian National University, it is Australia’s most important site for optical astronomy.

On 13 January 2013 a bushfire swept through the observatory. Despite damage to some buildings, the telescopes were unharmed and are now back at work.

The photos in this exhibition tell stories of life and work on the mountain. They were taken by staff of the Australian Astronomical Observatory (AAO), which operates two telescopes there: the 4-m Anglo-Australian Telescope (AAT) and the UK Schmidt telescope.

Yesterday evening some of us were there installing the Exhibition and hanging frames and labels from the walls of the Sydney Observatory:

Working hard to get all frames and labels done on time!
Credit: Á.R.L-S.

Jamie Gilbert (AAO) carefully hanging label to my photo “Day and Night”.
Credit: Á.R.L-S.

The photos I’m providing for the Exhibition are these:

The 3.9m Anglo-Australian Telescope (AAT).
Credit: Á.R.L-S.

The 2dF instrument attached to the primary focus of the AAT.
Note that the mirror of the telescope is opened.
Credit: Á.R.L-S.

Day and Night at the AAT.
Credit: Á.R.L-S.

Circumpolar stars over the AAT on a dark winter night.
Credit: Á.R.L-S.

Double Rainbow at the sunrise over the Warrumbungle National Park. Photos taken from the catwalk of the AAT by Amanda Bauer (AAO) and processed and stitched by me.
Credit: Amanda Bauer & Ángel R. López-Sánchez.

but you can find many more photos I took at Siding Spring Observatory during the last years in this album of my Flickr.

However I have to confess that, as Amanda Bauer says in her blog, the best of the photos we have chosen is this spectacular panorama of the Milky Way over the AAT obtained by Jamie Gilbert (AAO):

Panorama of the Milky Way over the Anglo-Australian Telescope (AAT) using a CANON 5D Mark III. More information about this image: here.
Credit: Jamie Gilbert (AAO)

and that is why this photo is the largest one!

Jamie Gilbert and the frame with his panorama “The Milky Way over the AAT” during the installation of the photos of the “Stories from Siding Spring Observatory” Exhibition at Sydney Observatory on the evening of 16 April 2013
Credit: Á.R.L-S.

The Photo Exhibition Stories from Siding Spring Observatory is open to the public between 18 April 2013 and 13 August 2013. As the general visit to Sydney Observatory, it is free, so do not miss it if you have a chance!

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