Astrophoto Friday - the California Nebula

This week Astrophoto Friday brings us the California Nebula.


The California Nebula (also known as NGC 1499) is an emission nebula consisting largely of ionized hydrogen gas. It was named for its resemblance to the state of California - home to the Palomar Observatory. The nebula is located approximately 1,000 light years from our solar system in the direction of the constellation of Perseus.

The bright blue star Xi Persei (to the right of the nebula) most likely is the source of illumination for the nebula.

This image is a composite from two black and white images taken with the Palomar Observatory's 48-inch (1.2-meter) Samuel Oschin Telescope as a part of the Second Palomar Observatory Sky Survey (POSS II). The images were recorded on two glass photographic plates - one sensitive to red light and the other to blue. The plates were scanned and color combined to produce the image seen here.

Astrophoto Friday - Supernova 1972E

Astrophoto Friday returns with a pair of photos of the galaxy known as NGC 5253.

The photo on the left was taken with Palomar's 48-inch Schmidt telescope (now known as the Samuel Oschin Telescope) the night of June 4, 1959 by Milton Humason. The right-hand picture was taken by Charles Kowal with the same telescope the night of May 16, 1972.


Notice that the photo on the right has an extra star, visible to the lower right of the brightest part of the galaxy. The photo on the right has captured an explosion known as a supernova. This particular supernova (SN 1972e) was classified as a Type Ia supernova, which is thought to occur with the explosion of a dead star known as a white dwarf.

Supernova 1972e was found as a part of an organized survey for supernovae at Palomar that photographed thirteen of them in 1972. The old technique of photographing the sky and comparing the new images with older ones taken years before has now been supplanted by surveys that scan large volumes of sky and compare the new pictures with ones taken often days earlier. The Palomar Transient Factory survey has, at last count, bagged 622 supernovae since they began scanning the skies (also with Palomar's 48-inch telescope) last year.

That's quite an improvement, wouldn't you say?

Labor Day in North America

For your holiday weekend here is NGC 7000.


Happy Labor Day!

Palomar Transient Factory

Unique Sky Survey Brings New Objects into Focus

Partnership involves Caltech's Palomar Observatory and other world leaders in astronomy

San Diego, Calif.–An innovative sky survey has begun returning images that will be used to detect unprecedented numbers of powerful cosmic explosions–called supernovae–in distant galaxies, and variable brightness stars in our own Milky Way. The survey also may soon reveal new classes of astronomical objects.

All of these discoveries will stem from the Palomar Transient Factory (PTF) survey, which combines, in a new way, the power of a wide-field telescope, a high-resolution camera, and high-performance networking and computing, with rapid follow-up by telescopes around the globe, to open windows of discovery for astronomers. The survey has already found 40 supernovae and is gearing up to switch to a robotic mode of operation that will allow objects to be discovered nightly without the need for human intervention.

The Palomar Transient Factory is a collaboration of scientists and engineers from institutions around the world, including the California Institute of Technology (Caltech); the University of California, Berkeley, and the Lawrence Berkeley National Laboratory (LBNL); Columbia University; Las Cumbres Observatory; the Weizmann Institute of Science in Israel; and Oxford University.

During the PTF process, the automated wide-angle 48-inch Samuel Oschin Telescope at Caltech's Palomar Observatory scans the skies using a 100-megapixel camera. The flood of images, more than 100 gigabytes every night, is then beamed off of the mountain via the High Performance Wireless Research and Education Network­–a high-speed microwave data connection to the Internet–and then to the LBNL's National Energy Scientific Computing Center. There, computers analyze the data and compare it to images previously obtained at Palomar. More computers using a type of artificial intelligence software sift through the results to identify the most interesting "transient" sources–those that vary in brightness or position.

Within minutes of a candidate transient's discovery, the system sends its coordinates and instructions for follow-up observations using the Palomar 60-inch telescope and other instruments.

Soon all of the steps in the process will be completely automated, including decisions about which transients merit a second look. When follow-up observations indicate that candidate transient detections show promise, a prioritized list of candidates is brought to the attention of astronomers from the PTF member institutions. Finally, an astronomer becomes personally involved, by performing detailed observations using telescopes such as Palomar's 200-inch Hale Telescope, a Keck Telescope in Hawaii, or other partner telescopes around the world.

The PTF is designed to search for a wide variety of transient sources with characteristic timescales ranging from minutes to months, giving astronomers one of their deepest and most comprehensive explorations of the universe in the time domain.

"By looking at the sky in a new way, we are ushering in a new era of astronomical discovery," says PTF principal investigator Shrinivas Kulkarni, MacArthur Professor of Astronomy and Planetary Science at Caltech and director of the Caltech Optical Observatories. "Nimble automated telescopes and impressive computing power make this possible."

"No one has looked on these timescales with this sensitivity before. It's entirely possible that we will find new astronomical objects never before seen by humans," says Nicholas Law of Caltech, the project scientist for PTF.

Because it looks for anything changing in the sky, the PTF survey covers a vast variety of different astronomical targets. The wide range of the survey extends across the entire universe. Astronomers expect to discover everything from stars exploding millions of light-years away to near-Earth asteroids that could someday impact our planet.

Much of the survey's time is spent searching for so-called Type Ia supernovae. These supernovae, formed from the explosion of a class of dead star known as a white dwarf, are very useful to astronomers because they can help determine the distance to galaxies located across the universe. Those distances allow astronomers to probe the origin, structure, and even the ultimate fate of the universe.

By operating more rapidly than previous surveys, PTF will also detect objects of a completely different nature, such as pulsating stars, different types of stellar explosions, and possibly planets around other stars.

PTF's innovative survey techniques also have raised astronomers' expectations of finding new, unexpected, astronomical objects.

The PTF already has found many new cosmic explosions, including 32 Type Ia supernovae, eight Type II supernovae, and four cataclysmic variable stars. Intriguingly, PTF also has found several objects with characteristics that do not exactly match any other objects that have been seen before. PTF astronomers are eagerly watching these objects to see how they change, and to determine what they might be.

The quantity and quality of incoming data have astonished astronomers working in the field. On one recent night, PTF patrolled a section of the sky about five times the size of the Big Dipper–and found 11 new objects. "Today I found five new supernovae before breakfast," says Caltech's Robert Quimby, a postdoctoral scholar and leader of the PTF software team. "In the previous survey I worked on, I found 30 in two years."

Images and more information on the PTF survey are available on the PTF website at http://www.astro.caltech.edu/ptf

One of the most intriguing PTF discoveries, the object known as "PTF09dh" (above, right)appeared in a blank patch of sky and brightened as PTF watched from Palomar Observatory. The PTF collaboration is packed with supernova experts, but this discovery already has the team stumped--and excited. "For a cosmic explorer like me, the stream of curve balls served up by the universe makes for good job security. I take this as a sign there is plenty more waiting to be discovered.", said Robert Quimby, PTF's Software Lead.

Credit: PTF Collaboration

Comet 65P (Comet Gunn) as seen by PTF. The moving, and well known, comet was detected as a changing object by PTF on several nights, and was one of the first system verification images.

Credit: PTF Collaboration

Google Sky Map

I meant to post this awhile ago, but didn't quite get around to it. Sorry.

Anybody out there have an Android phone that has also tried Google Sky Map? If so, I'd love to hear what you think of it.

If not, be sure to check out the video. I haven't tried this as I don't have an Android, but it supposedly can access data from some of the Palomar Sky Surveys. Pretty cool for a phone. When can I get this for my iPhone?

Collison in the Virgo Cluster?

Here's a shot of the Virgo Cluster of Galaxies from Palomar's 48-inch Samuel Oschin Telescope. Click to enlarge. The image was put out as part of a European Southern Observatory press release on giant elliptical galaxy M87. M87 is the round galaxy just about in the middle of the image.

Here's their caption for the image above:

Image of the Virgo cluster of galaxies taken with the Palomar Observatory 48-inch Schmidt telescope as part of the Digitized Sky Survey 2. The giant elliptical galaxy Messier 87 is seen in the centre, while Messier 84 and 86 are the two bright galaxies forming part of the small group on the centre right of the image. New observations obtained with ESO’s Very Large Telescope have shown that the halo of stars around Messier 87 has been truncated, possibly because of some interaction with Messier 84. The observations also reveal that Messier 87 and 86 are moving towards each other.

You can get a high-resolution TIFF version of the image by clicking here. Warning it is 370 mb! If that is too much for you, you can get different sized jpeg versions here.

Surveys, Novae and more

I haven't talked much about actual research news in a while. . . . . I'll be giving much more info on that side of the observatory from time to time.

Last December I mentioned that Mosiac, the new camera in the 48-inch Samuel Oschin Telescope, had achieved first light. It was installed for the new Palomar Transient Factory (PTF) observing program. Their initial shakedown of the camera, data transfer, etc. is nearly complete and their first results are coming in.

Expect to hear a lot more about PTF here soon.

In other news, the Palomar 60-inch telescope is being used for a program called Palomar 60-inch Fast Transients In Nearby Galaxies (P60-FasTING). They just discovered a nova in spiral galaxy NGC 2403.

To give you some eye candy, here's a near-infrared shot of NGC 2403 taken with the 200" a few years ago.


Finally, former Caltech astronomer Avishay Gal-Yam (now with Weizmann Institute of Science, Rehovot, Israel - a PTF partner) was able to use old images from the Hubble Space Telescope to identify the location of a star before it blew up. The supernova, known as SN 2005gl, seems to have been too young to blow up in that fashion. Findings like this one, where observation and theory do not agree may seem like just what astronomers do not want to find. Actually, they are great, because the new observations pose a mystery that needs to be solved. Anytime you get unexpected results you always end up learning something. That's the point.

Podcast on Sky Surveys

My latest podcast for the 365 Days of Astronomy is up. You can check it out from their site directly or download it via iTunes too.

Error Correction: For some reason in the podcast I said the QUEST camera was 196-Megapixels. It was really only 161-Megapixels. Sorry about that.
Here are some links to go with the show:
Palomar's Samuel Oschin Telescope - Where it all happens

Second Palomar Observatory Sky Survey (aka POSS II) - some details on the second survey.

Google Sky & WorldWide Telescope - two ways to surf the sky from your desktop.

SkyFactory - home of some great images produced from the Second Palomar Sky Survey

High-Performance Wireless Research and Education Network - The high-speed network that allows astronomers to work remotely, far from Palomar.

Palomar-QUEST Survey - info on the survey completed last fall

Dwarf Planet Eris - Mike Brown's page on the world that "killed" Pluto

Operation SkyPhoto

Speaking of the Palomar Sky Survey . . . prints from the first survey are being used for a noble cause. Operation SkyPhoto is selling prints to help pay the huge costs associated with treating Alexander Thatte. Alexander is the son of two members of the Physics department of the University of Oxford. He has been battling leukemia for 4 years with chemotherapy and two bone-marrow transplants.The prints themselves are fantastic and make wonderful holiday gifts for anyone with an interest in astronomy. Here is your chance to help someone in need and get a cool thing in return. It doesn't get any better than that.

Hubble Holidays

The folks that run HubbleSite have put up some holiday cards of astronomical images.

One of them just happens to be a shot of the Pleiades captured with the Palomar Samuel Oschin Telescope for the Second Palomar Sky Survey.

The Great Galaxy in Andromeda

Here's another scan of a vintage PR shot from Palomar. This is of M31, the Andromeda Galaxy. The image was captured by the 48-inch Schmidt telescope at Palomar (now known as the Samuel Oschin Telescope) and was copyrighted by Caltech in 1959. Believe it or not, we still have a limited quantity of this poster for sale in the observatory's gift shop.

M31 has been an important galaxy in the history of astronomy. As the closest spiral galaxy to the Milky Way it has served as an important stepping stone out into the universe. In the 1920s Edwin Hubble used the 100-inch Hooker Telescope on Mt. Wilson to determine that the Andromeda Galaxy is a separate system from the Milky Way. His determination of its distance was off by a factor of two - a measurement that was later corrected by Walter Baade, using the 200-inch on Palomar. Modern estimates place the distance at 2.9 million light years.

M31 was photographed using the Samuel Oschin Telescope as a part of the Second Palomar Sky Survey. The photographic plates from that survey have been digitized and the images are available online. Davide De Martin of SkyFactory.org has used that data to produce a beautiful image of the galaxy.

Heart and Soul

Sunday's Astronomy Picture of the Day shows the Heart and Soul nebulae. It is another image wonderfully processed by Davide De Martin of SkyFactory.org from data obtained via the Digitized Sky Survey.

The image above began with Palomar's 48-inch Samuel Oschin Schmidt Telescope. Images were made as a part of the Second Palomar Observatory Sky Survey on 14-inch glass photographic plates. Each photo was originally a black-and-white image with either a red, blue or near-infrared sensitive film. The plates were scanned by the Space Telescope Science Institute and made available online for astronomers and others.

Davide has consistently done fantastic work in processing images. In this case he "worked with data coming from 8 different photographic plates taken at Palomar Observatory between 1989 and 1993. " The image above shows a large area of the sky 6.1 x 4.5 degrees.

Be sure to check out SkyFactory.org for more great images.