Two Telescopic Anniversaries

by Larry Klaes It's been a tough weekend, not only with the loss of the SpaceX Falcon booster but also the NanoSail-D sail experiment that flew aboard it. I'll have more on the loss of the sail tomorrow, but this may be a good day to look back and reflect on some of the titans of astronomical history, including the Hale instrument whose views of the heavens gave so many of us early inspiration. Tau Zero journalist Larry Klaes has been pondering these matters, and offers us a look at some of the people and instruments that proved essential in changing our view of the universe. Sixty years ago, on June 3, 1948, the most massive astronomical tool of the era was dedicated on Palomar Mountain near Pasadena, California. Known as the Hale Telescope, this instrument was much bigger than any telescope that had ever come before it. In its nearly three decades as the reigning largest telescope on Earth, the "Giant Eye" of the Palomar Observatory revealed new vistas of the heavens ranging from...

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Exotic Particles from Galactic Center?

What could be causing gamma-ray photons to be streaming from the galactic core with a precise energy of 511 keV (8 X 10-14 joules)? It's an interesting question, one tackled by Ian O'Neill on his astroENGINE site, as posted by 21st Century Waves in this week's Carnival of Space. O'Neill notes the defining nature of this energy level, which turns out to be the exact rest mass energy of a positron, the antimatter equivalent of an electron. That fact suggests the annihilation of positrons in the galactic center, but what's causing it? The usual suspects just don't fit, as O'Neill is quick to note: The first thing that comes to mind is a gamma-ray burst, produced when a massive star dies and collapses as a supernova. But this is short-lived and not sustained. How about the supermassive black hole sitting in the middle of the Milky Way's galactic nucleus? This theory was recently discussed on Astroengine, but the production of antimatter (i.e. positrons) is more of a slow leak than...

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Simulating the First Stars

Without the explosions of supernovae, the heavy elements so essential to life itself would be unavailable, and stars would lack the raw materials to form planets. Thus Carl Sagan's famous "We are star-stuff" quotation, an idea validated by our extrasolar studies, which allow us to correlate the presence of planets with the existence of heavy elements in their stars. Much remains to be done here, but stars with higher metallicity and more heavy elements do appear more likely to have planets. Volker Bromm (now at the University of Texas) puts it this way: "We're now just beginning to investigate the metallicity threshold for planet formation, so it's hard to say when exactly the window for life opened. But clearly, we're fortunate that the metallicity of the matter that birthed our solar system was high enough for the Earth to form. We owe our existence in a very direct way to all the stars whose life and death preceded the formation of our Sun. And this process began right after the...

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Ontario Lacus: Awash on Titan

Remember those oceans of methane we thought might exist on Titan? They were an exciting thought (I recall hypothetical images of the Huygens probe bobbing in such an ocean at the end of its journey, before we knew what it would actually land on). It's exciting to confirm that liquid does exist on Titan's surface in the form of liquid hydrocarbons, with a positive identification of ethane. At least one of the large lakes the Cassini orbiter has found there contains the substance, but we also know that numerous other lake-like areas exist beneath the smog. Image: The Imaging Science System aboard NASA's Cassini orbiter took the image, left, of Ontario Lacus in June 2005. (Image credit: NASA/JPL/Space Science Institute.) Cassini's Visual and Infrared Mapping Spectrometer took the image, right, of Ontario Lacus in December 2007. This view, taken at 5-micron wavelengths from 1,100 kilometers (680 miles) away, shows the part of the lake that is visible on Titan's sunlit side. What appears...

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Possible Evidence for Dark Energy

If dark energy is accelerating the expansion of the universe, how can we identify its signature? Researchers at the University of Hawaii have been using microwaves to detect what they believe to be dark energy at work. If their work stands up, it will be a useful step for cosmology, but also a potential boon for those of us with interstellar travel in mind. We obviously want to understand a force that may one day have propulsion implications, and it's possible that the universe is offering a set of useful clues. Here cosmology and propulsion science share a common interest. Led by István Szapudi, the researchers zeroed in on galactic superclusters -- the largest structures in the universe -- and so-called 'supervoids,' vast areas with few galaxies in them. Remember the prefix 'super' here, for conventional galactic clusters are some ten times smaller and held together by gravity, while the Hawaii team believes galaxies in the supervoids and superclusters are more affected by dark...

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Detection Method for Binary Star Planets

Astrometry, using the position and motion of celestial objects to further astronomical research, is ever more useful in the study of extrasolar planets. If you can measure how much a given star is displaced by the presence of a planet, you have a valuable adjunct to existing radial velocity and transit methods. Now a new study has examined astrometry's uses with binary stars, using the Hale telescope on Mt. Palomar and the Keck II instruments on Mauna Kea. And with certain restrictions, adaptive optics may allow us to detect binary star planets. The targets were seventeen binary or multiple star systems, most of them M-dwarf binaries closer than 20 parsecs from the Sun. Observations were conducted in the near infrared, with relative separations and position angles carefully measured. Study authors Krzysztof Helminiak and Maciej Konacki (Nicolaus Copernicus Astronomical Center, Poland) note the advantage of close systems: The closure of companions allows one to observe visual binaries...

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Betting on an Interstellar Future

Tibor Pacher has gone out on a limb. The founder of peregrinus interstellar and an active supporter of interstellar research, the Heidelberg-trained physicist (now a freelance software consultant) has made a wager on the Long Bets site that should raise eyebrows: "The first true interstellar mission, targeted at the closest star to the Sun or even farther, will be launched before or on December 6, 2025 and will be widely supported by the public." Note that no crew is assumed, the vehicle presumably being an unmanned flyby probe. We must also assume it will be targeted at the nearest star system, Alpha Centauri. Even so, to pull off the attempt in a mere seventeen years? But my friend Tibor is a gadfly as well as an optimist. He knows as well as anyone that the time frame is outrageous, but he wants to inspire discussion and keep people thinking about interstellar issues. In the same spirit, he notes the motivations that exist, from the challenge of a seemingly impossible destination...

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What Makes Us Explore?

Is the urge for exploration innate to our species, or is it a vestigial disorder? Rand Simberg takes on the question at The Space Review this week, an article I came across thanks to a link at Music of the Spheres, which hosts the latest Carnival of Space this week. If you have an interest in simulators and flying (and as a now inactive but still interested CFII, I can relate to that!), you'll want to be reading Music of the Spheres regularly. It's a fine and enthusiastic blog frequently updated with space-related software discussions, and one I've been reading for years to follow Bruce's adventures with the ORBITER simulator. But back to exploration: Simberg questions whether the exploratory impulse isn't disruptive in modern society, pointing out that most people in the world live out their lives within miles of the place where they were born, and suggesting that those who want to push a human agenda in space need a better justification than this. The candidates? Fear is one, as in...

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New Planet: CoRoT’s Interesting Find

Finding transiting planets is no longer a surprise, and we can expect a host of transits from the CoRoT mission, which has the advantage of observing from a space-based platform. Moreover, CoRoT will, in the course of its lifetime, survey as many as 120,000 stars for up to five months. Driving home the advantage is the announcement of a new CoRoT planet known as CoRoT-Exo-4b. We're dealing with another Jupiter-sized planet orbiting in close proximity to its star, but this one has a unique claim to distinction: Its host star is rotating at the same pace as the planet's orbit. Image: Fixated upon a star: An artists impression of the satellite CoRoT in orbit around the Earth. Credit: CNES. Moreover, for a transiting world, CoRoT-Exo-4b is a relatively long-period planet, orbiting its F-class primary in 9.2 days. Thus far most transiting worlds have had orbits below about five days, two major exceptions being HD 147506b and HD 17156b, the latter with a period of 21.2 days -- both of...

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A New Take on Warping Spacetime

For those of you who don't see Spaceflight, a magazine published by the British Interplanetary Society, it may be useful to know that an article by Richard Obousy and Gerald Cleaver (Baylor University) on warp drive theory from the April issue is now available on the arXiv server. This material was presented at the November, 2007 symposium held by the BIS in London. Kelvin Long, who organized the session, had earlier passed along several documents from the proceedings that we looked at here, and also wrote up the duo's ideas in the same issue of Spaceflight. But let's backtrack a minute to Miguel Alcubierre's 1994 paper, which demonstrated that it would be possible -- within the context of General Relativity -- to envision a space drive that could get you to your destination in a time shorter than it would take light itself to get there. Contracting space in front of the craft while inflating it behind, the drive is permissible because the starship itself would not be going faster...

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Overlooked Nova Challenges Amateurs

How does a planet full of amateur and professional astronomers miss an exploding star that was one of the brightest novae in the past ten years? The fact that the event called V598 Puppis (the brightening of the star USNO-A2.0 0450-03360039) was only spotted days after its explosive appearance by an orbiting space observatory that was turning from one target to another seems remarkable, but maybe it's a salutary reminder that with resources limited on the professional level, amateurs are still needed to track such interesting events. The observatory in question was ESA's XMM-Newton, an X-ray observatory whose data is recorded even as the satellite moves between different objects. That 'slewing' data revealed that the star in question had brightened by more than 600 times, as verified by later observers at Las Campanas Observatory in Chile. The evident cause: A white dwarf drawing off gas from a companion star, building sufficient quantities that a nuclear reaction released the...

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Galactic Rims: News and a Reminiscence

The image below is striking enough that I would have run it even without the interesting story it tells about the presence of organic materials in Messier 101. Viewed at infrared wavelengths and color-coded, the Pinwheel galaxy's spiral arms are visible, as is an outer zone, marked by a coral color, in which the organic molecules called polycyclic aromatic hydrocarbons disappear. These hydrocarbons are typically found in areas of star formation, with interesting implications for the appearance of life. So what does an organic-free zone tell us about the Pinwheel galaxy? "If you were going look for life in Messier 101, you would not want to look at its edges," said Karl Gordon of the Space Telescope Science Institute in Baltimore, Md. "The organics can't survive in these regions, most likely because of high amounts of harsh radiation." Image: The Pinwheel galaxy, otherwise known as Messier 101, sports bright reddish edges in this new infrared image from NASA's Spitzer Space Telescope....

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Communicating with the Future

It dawned on me over the weekend that Centauri Dreams will soon enter its fifth year of operation, the anniversary being in mid-August. On Sunday I walked the neighborhood, musing over the changes the site has seen and thinking back to its inception. I realized that the actual germ of the idea goes back not to 2004 but to 1986. In those days I was, among other things, writing wine and restaurant reviews, and I found myself in Winston-Salem NC, where I had been sent to review some hot new bistro or other. That night in my hotel room I watched a news item on Voyager, which had just encountered Uranus, and reflected about human futures. The thinking went like this: Launched in 1977, the Voyagers could accomplish their prime mission easily within the lifetimes of those who sent them (their extended mission beyond the heliopause wasn't much discussed back then). But I began to imagine truly long-haul missions that would be brought home not by the people who sent them but by the next...

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On Cycles of Exploration

The latest Carnival of Space is now available, with several items of particular interest to those of us fixated on deep space from the edge of the Solar System to nearby stars. Have a look, for example, at this take (from Astronomy at the CCSSC) on Makemake, a dwarf planet in the newly minted IAU sense, and also a plutoid, meaning a dwarf planet outside Neptune's orbit. Or try Starts with a Bang, where the speculation runs to placing human crews on long-haul starships using artificial incubators and frozen embryos, a subject we recently touched on in these pages. My attention was particularly drawn to Bruce Cordell's piece on How Great Explorations Really Work, in an intriguing site called 21st Century Waves. Here the idea is that great exploratory projects (think Apollo, for example) do not happen at random times, but tend to cluster around a 56-year energy cycle that coincides with major economic booms. My experience with the stock market tells me that when anyone identifies a...

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EPOXI: Clues to Terrestrial Worlds

You must see new video from EPOXI, whose effect can only be suggested by the photo montage below (click the link below for the movie). EPOXI is the combined extended mission of the Deep Impact spacecraft. As we discussed in an earlier story here, EPOXI turned its cameras on the Earth to view the moon transiting the planet's disk from a vantage point of 31 million miles. Think in terms of viewing the Earth the way we will eventually view terrestrial worlds around other stars. The idea is to build insights into how these worlds can be observed and characterized. Image: The moon crossing the Earth, as viewed by EPOXI. Video credit: Donald J. Lindler, Sigma Space Corporation/GSFC; EPOCh/DIXI Science Teams. Drake Deming (NASA GSFC), deputy principal investigator for EPOXI and leader of the extrasolar planet component of the mission (called EPOCh), points out how the information can be helpful: "Our video shows some specific features that are important for observations of Earth-like...

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Red Dwarf Tides: Disrupting Life?

It's easy to see why interest in planets around red dwarfs is growing. The low mass of such a star makes finding smaller planets feasible. It also produces orbits closer to the star, another aid to their detection. We know that planets can form near the habitable zone of such stars because we have the example of Gliese 581, where two planets orbit close to if not just within that region. But is a habitable planet always habitable? If not, what could make these conditions change? I'm looking at a paper that examines tidal effects, an important factor when dealing with M dwarfs. Planets in the habitable zone around these stars experience effects that can cause both their orbital distance and orbital eccentricity to decrease [see comments below re my original misstatement of the eccentricity change, now corrected]. The paper, by Rory Barnes (University of Arizona, Tucson), Sean Raymond (University of Colorado, Boulder) and team, examines an interesting parameter: The habitable lifetime....

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Detecting Life in Enceladus’ Plume

Now in press at Astrobiology is a look at the possibilities of life on Enceladus that holds out hope for detecting biomarkers with data gathered during a Cassini flyby. That's an exciting possibility, depending as it does not on an orbiter or lander mission from an indefinite future but on equipment we've currently got in Saturn space. And the Enceladus picture remains fascinating because of the possibility that some microbial systems on Earth that operate far beneath the surface may offer examples of how life could evolve on a cold and distant moon of Saturn. We've already found a dozen icy particle jets coming out of Enceladus' south polar regions, all pumping material into a plume that extends for thousands of kilometers. A 2005 Cassini flyby revealed, among other things, water vapor, methane and simple organic compounds, even as other Cassini instrumentation showed the moon's south polar region to be anomalously warm. If there is liquid water under the south polar region, could...

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Planetary Prospects Around Proxima

We've been paying a lot of attention to Centauri A and B in the past two years, but what about Proxima Centauri? After all, this is the closest star to our Sun, a fifth of a light year out from the two major Centauri stars, and free of the close binary problem. You would think this small red dwarf would rank higher on our list of astrobiologically interesting places, but until recently, that red dwarf status has been an encumbrance. It has been only within the last eleven years that the presumed tidal locking of planets in the habitable zone of such stars has been found not to be a necessary deterrent to the formation of a stable climate. Today, M dwarf interest grows. There's at least the chance of a workable ecosystem around such a star, assuming flare activity (common to these stars) might act more as an evolutionary stimulus than a deterrent to life. Moreover, the long lifetimes granted to M dwarfs mean that stable environments could exist for many billions -- perhaps hundreds of...

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A Discouraging Outlook for Centauri A Planets

The news about planetary prospects around the Centauri stars has been positive enough lately that a paper suggesting otherwise introduces a rather jarring note (to me, at least). After all, we've detected more than forty extrasolar planets in multiple systems, a significant percentage of all detected exoplanets, and while most of these are in systems where the stars are widely spaced, there are planets around stars like Gliese 86 or Gamma Cephei where the separations are in the range of a Centauri-like 20 AU. Moreover, key studies have shown that planetary orbits in the habitable zone of the Centauri stars are viable. But what Philippen Thébault (Stockholm Observatory), Francesco Marzari (University of Padova) and Hans Scholl (Observatoire de la Côte d'Azur) bring to the table is a different question. Never mind that planetary orbits may be stable -- how likely are planets to form in these settings in the first place? It turns out that the last stage of planet formation has been...

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Exploring Titan via Blimp

The latest Carnival of Space is now available at the Space Disco site, where Dave Mosher has put together a helpful slideshow of entries handsomely illustrated and linked to the originals. With seven new blogs coming online at Discovery Space, we'll doubtless be seeing contributions from many of these fine writers, people such as Ray Villard, Chris Lintott and Mosher himself. I'm particularly looking forward to Jennifer Ouellette's Twisted Physics blog, which this week offers a backgrounder on tachyons. In terms of our usual beat, deep space from the outer planets into interstellar space, I'll send you to David S.F. Portree's Altair VI site, where the author has gone to considerable trouble to present the results of a study by Science Applications, Inc. (SAI) on the possibilities of futuristic missions to Titan. This material was originally presented in 1983 at a NASA workshop and offers a view of what should still be a viable game plan: To seed the clouds of Titan with floating...

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Charter

In Centauri Dreams, Paul Gilster looks at peer-reviewed research on deep space exploration, with an eye toward interstellar possibilities. For many years this site coordinated its efforts with the Tau Zero Foundation. It now serves as an independent forum for deep space news and ideas. In the logo above, the leftmost star is Alpha Centauri, a triple system closer than any other star, and a primary target for early interstellar probes. To its right is Beta Centauri (not a part of the Alpha Centauri system), with Beta, Gamma, Delta and Epsilon Crucis, stars in the Southern Cross, visible at the far right (image courtesy of Marco Lorenzi).

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If you'd like to submit a comment for possible publication on Centauri Dreams, I will be glad to consider it. The primary criterion is that comments contribute meaningfully to the debate. Among other criteria for selection: Comments must be on topic, directly related to the post in question, must use appropriate language, and must not be abusive to others. Civility counts. In addition, a valid email address is required for a comment to be considered. Centauri Dreams is emphatically not a soapbox for political or religious views submitted by individuals or organizations. A long form of the policy can be viewed on the Administrative page. The short form is this: If your comment is not on topic and respectful to others, I'm probably not going to run it.

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