Sunday, February 28, 2010

The Big Eye: Back on the Sky


With the Hale Telescope mirror support engineering has finished, astronomical research with the 200-inch resumes tonight! On tap tonight and for the next two nights are infrared observations of accretion disks (flattened disks of gas) around young stars.

Friday, February 26, 2010

Astrophoto Friday: Helix Nebula

It is Astrophoto Friday again. Today we have a vintage shot from the 200-inch telescope.


NGC 7293, the Helix Nebula

This image was captured from prime focus by Rudolph Minkowski the night of October 12, 1952. The Helix Nebula is a planetary nebula. It is seen in the direction of constellation of Aquarius and is located some 450 light-years away.

Thursday, February 25, 2010

In Other News . . . .

Here are some links for your Thursday.

An article on the PALM-3000 adaptive optics system coming to the Hale Telescope next year.

Some information on a recent Type Ia supernova discovery made with the Palomar Transient Factory.

For those who haven't seen it (and you should see it) the documentary film The Journey to Palomar is now on Hulu.

Back on Sky

The major work on the Hale Telescope's mirror supports was completed late last week. The telescope and dome a needed few days to cool down back to nighttime temperatures before we were able to return the telescope to nighttime operations and measure how successful the project was. Nighttime operations resumed on Tuesday.

Above is the view from Tuesday night. The Moon is visible through the open dome slit and the lights are on in the telescope's Cassegrain cage.

Here is a short time-lapse of part of that night. There is just enough light in the dome to see that the engineering crew was putting the telescope through a wide range of motions.

video

There is a higher resolution version posted here.

All of this was done to test the effectiveness of the refurbished supports by focusing the telescope, measuring the forces the supports exert on the 200-inch mirror and to measure the mirror's shape as the telescope points at different places in the sky.

The early results look very good and (weather permitting) astronomical observations should return as scheduled Sunday night.

Monday, February 22, 2010

Palomar History Photo of the Week - February 22, 2010

Recently a wonderful cache of old photos was discovered at Palomar. Virtually every image has a date and some accompanying text to go with it. Scanning of this collection has just begun and most of the images have not likely been seen by anyone in decades.

The oldest image in the collection is this one:


The writing on the envelope that contained the glass negative for this shot indicated that the image is from 1929. It was labeled: 4" telescope & stand used for testing seeing.

That means that this telescope is likely one of the ones that was used to evaluate the conditions on various mountain tops as a part of the survey to decide which mountain would be chosen as the home for the 200-inch telescope. Palomar was, of course, finally chosen in 1934. I do not know what became of the site testing telescopes.

The photo was taken by Ferdinand Ellerman.

UPDATE: Thanks to eagle-eyed reader Matt who noticed that there were letters on a box that were backward, meaning that the image was reversed. It has now been corrected. The letters on the box were from a Van Dyck cigar box, shown in full resolution below:

Sunday, February 21, 2010

Observatory Open Again


The winter weather has passed (although there fog in the area) and the observatory is open to the public again.

Saturday, February 20, 2010

Observatory Closed to Public Today

Winter weather and hazardous road conditions will keep the observatory closed today.

Friday, February 19, 2010

Astrophoto Friday: Globular Star Cluster M3 in Infrared

Note: See the update to this post added at the end.


The image above shows the globular star cluster known as M3. The cluster is made up of several hundred thousand stars. It is a member of our Milky Way Galaxy, located nearly 34,000 light years from our solar system.

This star cluster is located within the constellation of Canes Venatici, the hunting dogs. In 1764 the French comet hunter Charles Messier made it the third object, M3, of his now famous catalog.

M3 is thought to be about 180 light-years across, although half of the cluster's stars are located within its innermost 22 light years. M3 contains a relatively large number of "Blue Straggler" stars. These are stars that are bluer than most other stars within the cluster. They are thought to have had their outer layers stripped away by close encounters with other stars in the dense inner regions of the cluster.

This infrared image was taken by Tom Jarrett (Infrared Processing and Analysis Center / Spitzer Science Center / Caltech) using the Palomar Observatory's 200-inch Hale Telescope with its Wide-field Infrared Camera.


UPDATE to post: Thanks to Palomar Skies reader jg for keeping me on my toes about blue straggler stars. Please note that my comments in the post as it was first worded did not reflect any of the science being done by Tom Jarrett.

jg was correct in his comments about how blue straggler stars are thought to be created. Here is a graphic from a HST press release that illustrates the leading two ideas:


Something else that I should have noted the first time around was that blue straggler stars were first discovered by astronomer Allan Sandage who was studying globular cluster M3 with the 200-inch Hale Telescope.

Thursday, February 18, 2010

Mirror Support Update


I have been remiss by not updating on the big mirror support engineering run which has been going on since January 25. I am happy to report that the work is proceeding ahead of schedule. All of the 35 mirror supports have been removed, refurbished and re-installed on the telescope.

There is a period of adjustment on the supports that is taking place now. The dome and telescope will soon begin its cool down phase so that we can test and adjust with the telescope on sky.

Here are a few photos from the last couple of weeks to help illustrate some of the work that has been taking place.

Two members of the Palomar day crew working on the hydraulic ram just underneath the Hale Telescope's mirror cell.

Removing the last portion of support R3 with support N3 in front of it.

Here are just a few of the more than 1,400 bearings that were replaced as a part of this project.

Essentially each and every part for each of the telescope's 36 mirror supports is unique. Notice how the part above is stamped with which support it is a part of (R3), but also other identifying information to show exactly where it goes on the support.


One of the primary reasons the crew is ahead of schedule is due to the detailed planning that went into the project. Each member of the crew had detailed procedures and checklists to follow.
Here is a single mirror support, completed and ready for its re-installation in the telescope. The three primary parts of a support are the lever arm assembly (left), the gimbal unit (back) and stem (right).

Model Railroading, Palomar Style

Next time you are visiting Palomar Observatory, be sure to stop in the visitor center to see this:


It is a 1/24th scale model of the railway car that brought the 200-inch mirror from Corning, NY to Caltech in Pasadena, CA. In the spring of 1936 the mirror's 16-day cross-country trip captured the attention of the nation.

The model was built by Jay Schwabe, one of the observatory's docents. Here is Jay with the model and a second model that he built of the full train:

He has done a wonderful job and we are happy to have some of his fine work on display at Palomar. The longer 1/64th scale model of the entire train is expected to soon go on display at the San Diego Model Railroad Museum.

Tuesday, February 16, 2010

Observatory: Open!

Palomar Observatory is now back on regular winter visiting hours and open 9:00 a.m. until 3:00 p.m. daily.

Monday, February 15, 2010

Palomar History Photo of the Week - February 15, 2010

This week's Palomar Observatory History Photo of the Week comes from the Google LIFE Magazine image archive.


The photo, likely from late 1938, shows the early stages of construction of the 200-inch telescope at Palomar Observatory. There are a lot of Palomar photos in the on-line archive and more, with some overlap here. They include some great photos from the construction era and a lot of commissioning photos as the 200-inch and the 48-inch telescopes came into service in the late 1940s.

Friday, February 12, 2010

Observatory Closed Through the Weekend

Just to keep everybody posted the observatory is closed and will be so at least through February 15th.

Astrophoto Friday: Comet Kohoutek

Here is a vintage picture of Comet Kohoutek.

The comet was photographed with Palomar Observatory's 48-inch Schmidt telescope (now called the Samuel Oschin Telescope) on January 12, 1974. The image was captured using a 103a-O blue light sensitive photographic plate with a three minute exposure.

Wednesday, February 10, 2010

Working on the Mirror Supports

I need to get going on writing a detailed description of the work that is taking place for this engineering run, but in the meantime here is a photo of some of the crew working on the mirror supports.

Tuesday, February 9, 2010

More Winter Weather

The National Weather Service is predicting that the winter storm that is just starting to hit the Palomar area will drop some 12 - 20 inches of snow.

Currently there is dense fog, slick roads and snow actively falling.

If Nature delivers as expected it is a good bet that the observatory will be closed for at least the next several days. I will update the observatory's status as soon as there is something new to report.

Stupendous Man Visits Palomar Observatory

Look! Up in the Sky! It's a bird. It's a plane. It's Stupendous Man!

Back in the day, the comic strip Calvin and Hobbes ruled the funny pages. The imagination of six-year old Calvin was unlimited.

Here are two days of comics, pulled from the collection Scientific Progress Goes "Boink" where Calvin, disguised at Stupendous Man, visits Palomar Observatory:


Be sure to click on each strip to enlarge.

Alas, the 200-inch telescope on Palomar Mountain (not Mount Palomar) does not have a giant lens. Like all modern research telescopes it uses a mirror to collect light. Of course Calvin can be forgiven. After all he is only six years old. Alas, a great many of our visitors ask about the lens even after we explain that it is all done with mirrors.

This just, perhaps, barely qualifies as another episode of Palomar in Science Fiction. Fear not, more episodes are on the way.

Monday, February 8, 2010

Palomar History Photo of the Week: February 8, 2010

I recently scanned this photo from an old lantern slide:


It shows a man standing with the mirror cell for the 200-inch telescope at Palomar. Unfortunately I do not know who is in the photo. Fortunately there is a date given on the photo: 10-25-35. October 25, 1935.

The photo was later featured in an ad for Babcock & Wilcox, the company that built the mirror cell.
As always, you can click on it to see a bigger version.

The ad ran in the 1948 Caltech yearbook, The Big T.

It seemed like a good time to run this as all the openings in the mirror cell contain the mirror supports which are currently being serviced. In the ad the photo on the right shows optician Marcus Brown climbing the backside of the mirror. A portion of the mirror supports can be seen sticking out of that side of the mirror.

Friday, February 5, 2010

The Story of the Hale Telescope's Mirror Supports

Warning: This is a long blog post!

There can be no doubt that the Hale Telescope is a complex machine that was built to do a simple purpose: collect star light and focus it to a camera.

Of course the telescope has to be complex given the fact that it must point to various locations across the sky and then smoothly move to counteract Earth’s rotation. The physical structure was built knowing that its massive steel parts would sag under the weight of gravity. This was done in such a way as to keep the optical elements precisely aligned.

The glass mirror is also subject to the stresses and strains of gravity. Its surface is very precisely shaped into the form of elliptic parabaloid (the three dimensional form of a parabola). As the telescope points to various directions in the sky the mirror needs to be supported from its underside to counteract any distortion caused by gravity. These distortions can cause the mirror to deform, losing its perfect shape. Without a properly working system of support mechanisms it can become impossible to uniformly focus the telescope.

The designers of the telescope knew this. That is why the mirror was cast with a waffle-like underside.

This is what the mirror looks like when it is stripped of its reflective aluminum coating. The underside clearly comes into view. There are two main features you can see in the glass from this view.


There are 78 hollow areas on the mirror’s underside. Together they make the mirror weigh 42% less than it would if it had been cast with a solid backside. Having a waffle-like backside also helps with the issue of changes in temperature. They give the mirror more surface area, which means that the whole thing can adjust to temperature swings more rapidly.

The 36 mirror supports are located in the round areas of the mirror’s underside. The locations of the ones visible in the photo are marked in the image above.

Fitting into each of these round holes is a very complex mechanism that ideally keeps the mirror in a perfect shape.


Let’s change the view now and look at the mirror’s underside. This image was taken last week as our current engineering run was just getting started. Notice the hole in the middle. Yes, the mirror has a big hole in it. This allows us to focus light to the underside of the telescope. In the photo of the mirror near the top of this post the hole was plugged.

In concentric circles centered around the central hole you can see the Hale Telescope’s 36 mirror supports. Click to enlarge and you’ll likely notice that the supports do not all look the same. Yes, each of the 36 supports is unique.

For those who might care, here is a map of the supports. It is in the same orientation as the photo above.


So what exactly do the supports do? They push back on the glass to counteract gravity. The supports near the center hole each exert an average force of about 700 pounds. Out along the outside of the mirror the mirror is thicker and the supports are farther apart, each of the supports needs to push with a force up to about 1,100 pounds.

The forces that the supports need to exert on the mirror must change as the telescope is pointed to different locations on the sky. Take for example the start of the night. The telescope starts off pointing at the zenith and after a quick check of the focus it is time to point at the first object of study. As the telescope moves each of the supports pivots in several ways changing their push on the glass. None of this is actually controlled. Once the supports are in the proper adjustment, gravity does all the work. Newer telescopes have computer-controlled systems that actually push and pull on the base of their mirrors to keep them finely tuned. This is called active optics (not to be confused with adaptive optics which is a different thing).

In 1949 when all the adjustments were done on the 200-inch mirror’s supports Ira Bowen and Bruce Rule found that things were just a little bit off. They added four spring scales to finish their work. Their locations are marked on the map above in positions labeled SU or SD. SU is where a spring pulls up and SD is a spring that pulls down. At mirror support P10 (lower right) the spring scale pulls up with a force of 5 ounces. At P1 (lower left) it pulls down with a force of 21 ounces. At P4 (upper left) it pulls up with a force of 16 ounces and at P7 (upper right) it pulls down with a force of 30 ounces. Remove just one spring scale and the telescope is out of adjustment.


The adjustments finished in 1949 worked for decades, but the mirror supports have to endure some extreme conditions. Every time the mirror is pulled to be washed and realuminized the mirror, the mirror cell and the back supports are potentially exposed to water from the washing. Further, the back supports are exposed to a partial vacuum, which can cause problems with the grease in the bearings.

The supports and the bearings have been worked on before and for the current engineering run 35 of the supports are being worked on (one was done last November).

So what are they doing in this engineering run? I will discuss that in a future post.

Thursday, February 4, 2010

Observatory Still Closed

Yes, the observatory is still closed to the public and I am told that will likely be the case for the rest of this week, including the coming weekend. Sorry about that.

Sunrise and Facebook

Here is this morning's sunrise.

How does it compare to last Friday's sunrise?

Palomar Observatory is finally on Facebook. Click on the image below to head on over if you are part of the Facebook scene.


As a reminder Palomar Skies is on Twitter too.

Wednesday, February 3, 2010

The Asteroid that Became a Comet and the Comet that Became an Asteroid

Once in a while an asteroid comes along that changes things.

On January 6, 2010 the Lincoln Near Earth Asteroid Research team discovered a main-belt asteroid that was experiencing an outburst making it look like a comet. Comets aren't normally found in the asteroid belt and early indications suggested that this was an asteroid that had suffered a collision, which produced it's comet-like outburst and tail. A photo released yesterday (below) taken by the Hubble Space Telescope reveals that the object's tail does not resemble that of a normal comet and that the bright star-like nucleus is strangely offset from the tail itself. All of this tends to support the idea that this display is the result of the collision of two asteroids - an event never before witnessed.


Seeing an asteroid have a comet-like outburst reminds me of the case of a comet that apparently converted into an asteroid. Back in November 1949 Albert Wilson and Robert G. Harrington were using the 48-inch Schmidt (now called the Samuel Oschin Telescope) taking photos for first Palomar Sky Survey when they discovered a comet. Comet 107P/Wilson-Harrington was photographed by the duo over three nights but there was great uncertainty in the orbit and it was eventually lost.

Thirty years later, in November 1979, Eleanor Helin was observing at Palomar when she discovered a new asteroid temporarily dubbed 1979 VA. You can see it as the streak in the center of the image below.


In the early 1990s it was determined that Comet Wilson-Harrington and asteroid 1979 VA were the same object. The asteroid is now known as 4015 Wilson-Harrington and is thought to be a comet that lost all of its icy volatiles, or in essence a "burned out" comet. For more on the discovery of Wilson-Harrington have a look at this page over at Cometography.

Why do astronomers think that Wilson-Harrington is a dead comet and not an asteroid that had a collision back in 1949? It's orbit.



Notice that Wilson-Harrington's orbit is elliptical like a typical comet. At its farthest point from the Sun it is out in the asteroid belt, but at its closest point it comes in a little closer to the Sun than Earth is. Just like a typical comet, this one had its 1949 outburst when it was close to the Sun and its heating.

By the way, as of a few days ago the count of the total number of asteroids discovered at Palomar Observatory stood at 23,366.

Tuesday, February 2, 2010

Engineering Time-Lapse

Here is a time-lapse video that takes the entire first day of engineering on the mirror supports and compresses it into about a minute and a half.

video

Most of the work during the first day was directed toward preparing the telescope with earthquake tie-downs, removing the Cassegrain cage and preparing for the removal and refurbishment of the mirror supports.

Video on Blogger is somewhat compressed, so if you want to see a larger, 99 mb version, click here. I should have some more of this kind of time-lapse to show off later on. Thanks to Mike V for his help on this!

Stellar Docents

Last Saturday night Palomar Observatory honored our docents who have given exceptional levels of service.


They help tell the observatory's story through tours and many other ways. I am very glad to have them around.

Monday, February 1, 2010

Palomar History Photo of the Week - February 1, 2010

This week's Palomar Observatory History Photo of the Week comes from the Caltech Optical Shop.


The photo was taken by optician Blake Mitchell on December 15, 1946. Here is Blake's somewhat brief caption to the photo which he wrote on the back of the print:

The 200" disc tipped up for testing. A 50" pitch polishing tool in foreground.
I hope to get some more posts this week including a new episode of Palomar in Science Fiction, an update on the work being done on the Hale Telescope's mirror supports and more. Stay tuned.