Showing posts with label earth. Show all posts
Showing posts with label earth. Show all posts

Monday, July 24, 2017

VASIMR plasma engine: Earth to Mars in 39 days?

VASIMR plasma engine: Earth to Mars in 39 days?:



Artist's impression of a 200-megawatt VASIMR spacecraft. Images Credit: Ad Astra Rocket Company
Artist’s impression of a 200-megawatt VASIMR spacecraft. Images Credit: Ad Astra Rocket Company
In Arthur C. Clarke’s classic science fiction novels and movies 2001: A Space Odyssey and 2010: Odyssey Two, the spaceships Discovery and Alexei Leonov make interplanetary journeys using plasma drives. Nuclear reactors heat hydrogen or ammonia to a plasma state that’s energetic enough to provide thrust.

In 1983, seven-time Space Shuttle Astronaut Franklin Chang Diaz turned Clarke’s speculations into reality with an engine known as the Variable Specific Impulse Magnetoplasma Rocket (VASIMR).

An electric power source ionizes hydrogen, deuterium, or helium fuel into a plasma by stripping away electrons. Magnetic fields then direct the charged gas in the proper direction to provide thrust.

“A rocket engine is a canister holding high-pressure gas,” Chang Diaz explained. “When you open a hole at one end, the gas squirts out and the rocket goes the other way. The hotter the stuff in the canister, the higher the speed it escapes and the faster the rocket goes. But if it’s too hot, it melts the canister.”

The VASIMR engine is different, Chang Diaz explained, because of the fuel’s electrical charge: “When gas gets above 10,000 [kelvins], it changes to plasma – an electrically charged soup of particles. And these particles can be held together by a magnetic field. The magnetic field becomes the canister, and there is no limit to how hot you can make the plasma.”



VASIMR operation diagram


VASIMR® operation diagram. Credit & Copyright: Ad Astra Rocket Company © all rights reserved
Chang Diaz has pointed out that hydrogen would be an advantageous fuel for the VASIMR engine because the spacecraft would not have to lift off carrying all the fuel it needs for the journey.



VASIMR system


VASIMR® System. Image Credit: Ad Astra Rocket Company
“We’re likely to find hydrogen pretty much anywhere we go in the Solar System,” he said.

A spacecraft using conventional chemical rockets would take eight months to get to Mars during opposition. However, the VASIMR engine would make the journey in as little as 39 days.

Chang Diaz explained: “Remember, you are accelerating the first half of the journey – the other half you’re slowing, so you will reach Mars but not pass it. The top speed with respect to the Sun would be about 32 miles per second [or 51.5 km/s]. But that requires a nuclear power source to heat the plasma to the proper temperature.”

The use of nuclear power in space is not without its controversy. In 1997, there was widespread public concern when NASA’s Cassini probe, which carried a plutonium battery, made a flyby of Earth to perform a gravity assist. Although NASA denied that the risk to the public, should an accident occur, was no greater than that posed every day by other sources of radiation, some scientists, including the popular theoretical physicist Michio Kaku, disagreed.

In April 1970, the Atomic Energy Commission was deeply concerned about the return of Apollo 13 to Earth. Where an Apollo mission would usually leave the lunar module’s descent stage on the Moon, the unsuccessful Apollo 13 dropped its lunar module Aquarius, with its plutonium-powered scientific experiments, into the ocean, raising concerns about radioactive contamination.

Elon Musk, CEO of Space Exploration Technologies Corporation (SpaceX), is skeptical about the viability of the VASIMR engine. One reason is the concern about radioactive debris falling to Earth in the event of an accident.

Musk is also skeptical that the VASIMR engine would be a significant improvement over chemical rockets, stating: “So people like Franklin – basically it’s a very interesting ion engine he’s got there, but it requires a big nuclear reactor. The ion engine is going to help a little bit, but not a lot in the absence of a big nuclear reactor.” Musk also points out that the big nuclear reactor would add a lot of weight to a rocket.

Chang Diaz dismisses the concerns about nuclear reactors in space, stating: “People are afraid of nuclear power. Chernobyl, Three Mile Island, Fukushima – it is a little misunderstood. But if humans are truly going to explore space, we eventually will have to come to grips with the concept.”

Another vocal critic of the VASIMR engine is Robert Zubrin, president of The Mars Society, who designed the Mars Direct plan to colonize Mars and wrote the popular book The Case For Mars. He has gone as far as to call the VASIMR engine a “hoax”.

Zubrin wrote in SpaceNews: “To achieve his much-repeated claim that VASIMR could enable a 39-day one-way transit to Mars, Chang Diaz posits a nuclear reactor system with a power of 200,000 kilowatts and a power-to-mass ratio of 1,000 watts per kilogram. In fact, the largest space nuclear reactor ever built, the Soviet[-era] Topaz, had a power of 10 kilowatts and a power-to-mass ratio of 10 watts per kilogram. There is thus no basis whatsoever for believing in the feasibility of Chang Diaz’s fantasy power system.”

Chang Diaz, however, says in his paper: “Assuming advanced technologies [emphasis added] that reduce the total specific mass to less than 2 kg/kW, trip times of less than 60 days will be possible with 200 MW of electrical power. One-way trips to Mars lasting less than 39 days are even conceivable using 200 MW of power if technological advances allow the specific mass to be reduced to near or below 1 kg/kW.”



VASIMR-200kW-Moon-Cargo-Ship_800px.jpg
Bekuo-10MW_800px.jpg


LEFT: Artist’s rendition of a lunar tug with 200 kW solar powered VASIMR®. RIGHT: Artist’s rendition of a human mission to Mars with 10 MW NEP-VASIMR®. Images Credit: Ad Astra Rocket Company
In other words, Chang Diaz is allowing for further developments that would enable such a reactor.

Zubrin, however, stated: “[T]he fact that the [Obama] administration is not making an effort to develop a space nuclear reactor of any kind, let alone the gigantic super-advanced one needed for the VASIMR hyper drive, demonstrates that the program is being conducted on false premises.”

The 2011 NASA research paper “Multi-MW Closed Cycle MHD Nuclear Space Power Via Nonequilibrium He/Xe Working Plasma” by Ron J. Litchford and Nobuhiro Harada, indicates that such developments are feasible in the near future.

Whether the VASIMR engine is viable or not, in 2015, NASA awarded Chang Diaz’s firm – Ad Astra Rocket Company™ – a three-year, $9 million contract. Up to now, the VASIMR engine has fired at fifty kilowatts for one minute – still a long way from Chang Diaz’s goal of 200 megawatts.

In its current form, the VASIMR engine uses argon for fuel. The first stage of the rocket heats the argon to plasma and injects it into the booster. There, a radio frequency excites the ions in a process called ion cyclotron resonance heating. As they pick up energy, they are spun into a stream of superheated plasma and accelerated out the back of the rocket.



Video courtesy of Ad Astra Rocket Company


The post VASIMR plasma engine: Earth to Mars in 39 days? appeared first on SpaceFlight Insider.

Tuesday, April 14, 2015

Earth's Major Telescopes Investigate GRB 130427A

Earth's Major Telescopes Investigate GRB 130427A: APOD: 2013 May 8 - Earth's Major Telescopes Investigate GRB 130427A


Discover the cosmos! Each day a different image or photograph of our fascinating universe is featured, along with a brief explanation written by a professional astronomer.

2013 May 8


See Explanation. Clicking on the picture will download the highest resolution version available.
Earth's Major Telescopes Investigate GRB 130427A

Illustration Credit: NASA, DOE, Fermi LAT Collaboration
Explanation: A tremendous explosion has occurred in the nearby universe and major telescopes across Earth and space are investigating. Dubbed GRB 130427A, the gamma-ray burst was first detected by the Earth-orbiting Fermi and Swift satellites observing at high energies and quickly reported down to Earth. Within three minutes, the half-meter ISON telescope in New Mexico found the blast in visible light, noted its extreme brightness, and relayed more exact coordinates. Within the next few minutes, the bright optical counterpart was being tracked by several quickly re-pointable telescopes including the 2.0-meter P60 telescope in California, the 1.3-meter PAIRITEL telescope in Arizona, and the 2.0-meter Faulkes Telescope North in Hawaii. Within two hours, the 8.2-meter Gemini North telescope in Hawaii noted a redshift of 0.34, placing the explosion about 5 billion light years away -- considered nearby in cosmological terms. Previously recorded images from the RAPTOR full-sky monitors were scanned and a very bright optical counterpart -- magnitude 7.4 -- was found 50 seconds before the Swift trigger. The brightest burst in recent years, a signal from GRB 130427A has also been found in low energy radio waves by the Very Large Array (VLA) and at the highest energies ever recorded by the Fermi satellite. Neutrino, gravitational wave, and telescopes designed to detect only extremely high energy photons are checking their data for a GRB 130427A signal. Pictured in the above animation, the entire gamma-ray sky is shown becoming momentarily dominated by the intense glow of GRB 130427A. Continued tracking the optical counterpart will surely be ongoing as there is a possibility that the glow of a classic supernova will soon emerge.

Earths Richat Structure

Earths Richat Structure: APOD: 2013 May 19 - Earths Richat Structure


Discover the cosmos! Each day a different image or photograph of our fascinating universe is featured, along with a brief explanation written by a professional astronomer.

2013 May 19


See Explanation. Clicking on the picture will download the highest resolution version available.
Explanation: What on Earth is that? The Richat Structure in the Sahara Desert of Mauritania is easily visible from space because it is nearly 50 kilometers across. Once thought to be an impact crater, the Richat Structure's flat middle and lack of shock-altered rock indicates otherwise. The possibility that the Richat Structure was formed by a volcanic eruption also seems improbable because of the lack of a dome of igneous or volcanic rock. Rather, the layered sedimentary rock of the Richat structure is now thought by many to have been caused by uplifted rock sculpted by erosion. The above image was captured by the ASTER instruments onboard the orbiting orbiting Terra satellite. Why the Richat Structure is nearly circular remains a mystery.

Sunday, April 12, 2015

Fire on Earth

Fire on Earth: APOD: 2013 September 1 - Fire on Earth


Discover the cosmos! Each day a different image or photograph of our fascinating universe is featured, along with a brief explanation written by a professional astronomer.

2013 September 1


See Explanation. Clicking on the picture will download the highest resolution version available.
Fire on Earth

Image Credit: (AFS, BLM)
Explanation: Sometimes, regions of planet Earth light up with fire. Since fire is the rapid acquisition of oxygen, and since oxygen is a key indicator of life, fire on any planet would be an indicator of life on that planet. Most of the Earth's land has been scorched by fire at some time in the past. Although causing many a tragedy, for many places on Earth fire is considered part of a natural ecosystem cycle. Large forest fires on Earth are usually caused by lightning and can be visible from orbit. Above, in the year 2000, stunned elk avoid a fire sweeping through Montana's Bitterroot Valley by standing in a river.

Saturday, April 11, 2015

A Landing on Planet Earth

A Landing on Planet Earth: APOD: 2013 September 14 - A Landing on Planet Earth


Discover the cosmos! Each day a different image or photograph of our fascinating universe is featured, along with a brief explanation written by a professional astronomer.

2013 September 14


See Explanation. Clicking on the picture will download the highest resolution version available.
A Landing on Planet Earth

Image Credit: NASA, Bill Ingalls
Explanation: With parachute deployed and retro-rockets blazing, this spacecraft landed on planet Earth on September 11 (UT) in a remote area near the town of Zhezkazgan, Kazakhstan. Seen in silhouette against the rockets' glare, the spacecraft is a Soyuz TMA-08M. Its crew, Expedition 36 Commander Pavel Vinogradov and Flight Engineer Alexander Misurkin of the Russian Federal Space Agency (Roscosmos), and Flight Engineer Chris Cassidy of NASA were returning after five and half months aboard the International Space Station. The Soyuz retro-rockets fire very quickly and for an extremely short duration near touchdown. Capturing the moment, the well-timed photograph was taken from a helicopter flying over the landing site.

YES Moon, Venus, and Planet Earth

Moon, Venus, and Planet Earth: APOD: 2013 September 19 - Moon, Venus, and Planet Earth


Discover the cosmos! Each day a different image or photograph of our fascinating universe is featured, along with a brief explanation written by a professional astronomer.

2013 September 19


See Explanation. Clicking on the picture will download the highest resolution version available.
Explanation: In this engaging scene from planet Earth, the Moon shines through cloudy skies following sunset on the evening of September 8. Despite the fading light, the camera's long exposure still recorded a colorful, detailed view of a shoreline and western horizon looking toward the island San Gabriel from Colonia del Sacramento, Uruguay. Lights from Buenos Aires, Argentina are along the horizon on the left, across the broad Rio de la Plata estuary. The long exposure strongly overexposed the Moon and sky around it, though. So the photographer quickly snapped a shorter one to merge with the first image in the area around the bright lunar disk. As the the second image was made with a telephoto setting, the digital merger captures both Earth and sky, exaggerating the young Moon's slender crescent shape in relation to the two nearby bright stars. The more distant is bluish Spica, alpha star of the constellation Virgo. Closest to the Moon is Earth's evening star, planet Venus, emerging from a lunar occultation.

Equinox Earth

Equinox Earth: APOD: 2013 September 28 - Equinox Earth


Discover the cosmos! Each day a different image or photograph of our fascinating universe is featured, along with a brief explanation written by a professional astronomer.

2013 September 28
See Explanation. Clicking on the picture will download the highest resolution version available.
Explanation: From a geostationary orbit 36,000 kilometers above the equator, Russian meteorological satellite Elektro-L takes high-resolution images of our fair planet every 30 minutes. But only twice a year, during an Equinox, can it capture an image like this one, showing an entire hemisphere bathed in sunlight. At an Equinox, the Earth's axis of rotation is not tilted toward or away from the Sun, so the solar illumination can extend to both the planet's poles. Of course, this Elektro-L picture was recorded on September 22nd, at the northern hemisphere's autumnal equinox. For a moment on that date, the Sun was behind the geostationary satellite and a telltale glint of reflected sunlight is seen crossing the equator, at the location on the planet with satellite and sun directly overhead (5MB animated gif).

Thursday, April 9, 2015

Kepler 78b: Earth Sized Planet Discovered

Kepler 78b: Earth Sized Planet Discovered: APOD: 2013 November 5 - Kepler 78b: Earth-Sized Planet Discovered


Discover the cosmos! Each day a different image or photograph of our fascinating universe is featured, along with a brief explanation written by a professional astronomer.

2013 November 5


See Explanation. Clicking on the picture will download the highest resolution version available.
Kepler-78b: Earth-Sized Planet Discovered

Illustration Credit: David A. Aguilar (CfA)
Explanation: Even though Kepler-78b is only slightly larger than the Earth, it should not exist. Its size is extraordinary only in the sense that it is the most similar in size to the Earth of any exoplanet yet directly discovered. Its orbit, however, is extraordinary in the sense that it circles a Sun-like star 40 times closer than planet Mercury. At such a scathing distance, even rock is liquid. Models of planet formation predict that no planet can form in such a close orbit, and models of planet evolution predict that Kepler-78b's orbit should decay -- dooming the planet to eventually merge with its parent star. Illustrated above in comparison with the Earth, Kepler-78b was discovered by eclipse with the Earth-trailing Kepler spacecraft and further monitored for subtle wobbles by the HARPS- North, a spectrograph attached to the 3.6-meter Telescopio Nazionale Galileo in the Canary Islands.

Saturday, March 7, 2015

Four Billion BCE: Battered Earth

Four Billion BCE: Battered Earth: APOD: 2014 August 5 - Four Billion BCE: Battered Earth


Discover the cosmos! Each day a different image or photograph of our fascinating universe is featured, along with a brief explanation written by a professional astronomer.

2014 August 5


See Explanation. Clicking on the picture will download the highest resolution version available.
Explanation: No place on Earth was safe. Four billion years ago, during the Hadean eon, our Solar System was a dangerous shooting gallery of large and dangerous rocks and ice chunks. Recent examination of lunar and Earth bombardment data indicate that the entire surface of the Earth underwent piecemeal upheavals, hiding our globe's ancient geologic history, and creating a battered world with no remaining familiar land masses. The rain of devastation made it difficult for any life to survive, although bacteria that could endure high temperatures had the best chance. Oceans thought to have formed during this epoch would boil away after particularly heavy impacts, only to reform again. The above artist's illustration depicts how Earth might have looked during this epoch, with circular impact features dotting the daylight side, and hot lava flows visible in the night. One billion years later, in a calmer Solar System, Earth's first supercontinent formed.

The Night Mars Was Closest to Earth

The Night Mars Was Closest to Earth:



On Earth, Don Parker’s Mars images were hard to beat, but the Hubble Space Telescope—six times larger than his 16-inch ‘scope and, more importantly, above the atmosphere—easily pulled it off. In this pair of images taken around the time of the planet’s closest approach in 2003, the giant volcano Olympus Mons is the small, bright circular feature above center. Image courtesy Andrew Chaikin.


On Earth, Don Parker’s Mars images were hard to beat, but the Hubble Space Telescope—six times larger than his 16-inch ‘scope and, more importantly, above the atmosphere—easily pulled it off. In this pair of images taken around the time of the planet’s closest approach in 2003, the giant volcano Olympus Mons is the small, bright circular feature above center. Image courtesy Andrew Chaikin.
Editor’s note: On August 27, 2003 Mars was closer to Earth than at any time in human history. Author Andrew Chaikin asked Universe Today to tell the story of how he was fortunate enough to enjoy the event with Don Parker, a “superb planetary photographer and wonderful guy,” Chaikin wrote. “I first met Don, a retired anesthesiologist from Coral Gables, Florida, several weeks earlier when I journeyed with my telescope to Florida to photograph the Moon passing in front of Mars, an event called an occultation. I’d seen Don’s work for decades in Sky & Telescope magazine, but until the occultation we’d never met. I certainly had never imagined that he would turn out to be as much fun as he was, with a warped, wickedly bawdy sense of humor. Standing under the moon and Mars we bonded, and soon we were making plans for me to come down to his place for the closest approach.”

Don passed away on February 22, 2015. In his memory here’s an excerpt from Chaikin’s book, A Passion for Mars.

Godspeed, Don. See you on Mars.




Don Parker with his 16-inch telescope, which he used to take thousands of superb images of the planets. Photo by Sean Walker.


Don Parker with his 16-inch telescope, which he used to take thousands of superb images of the planets. Photo by Sean Walker.
ON PAPER, Don Parker’s life story is pretty ordinary: Born in 1939, he grew up in an Italian neighborhood in Chicago. He spent a few years in the navy, went to medical school, and ended up living in Florida with his wife, Maureen, and their children, working as an anesthesiologist in a Miami hospital. Looking at his résumé you’d never know about his other life, the one dominated by a lifelong obsession with Mars. By the time he went to see Invaders from Mars and War of the Worlds as a teenager in 1953, he was building his first telescope, a three-inch refractor with lenses from Edmund Scientific and a body made from a stovepipe his dad got for him.

He was subscribing to Sky & Telescope magazine and following the continuing debate over whether the canals on Mars really existed. That was a question that only a handful of professional astronomers cared about, but amateur observers, like the ones whose drawings were printed in the magazine, seemed to be on the case. Parker got serious about observing Mars himself around 1954, when he tried to create a homemade reflector, but failed when he had trouble with the mirror. His aunt Hattie came to the rescue that Christmas by giving him a hundred dollar bill — quite a bit of money in those days — which he used to buy a professionally made eight-inch mirror. With help from his dad, he assembled the new telescope, using pipe fittings for the mounting.

In the summer of 1956, when Mars made its famously close appearance, he was at the eyepiece making drawings of his own, until a dust storm engulfed much of the planet that September, just as Mars came closest to Earth. “Mars looked like a cue ball,” Parker remembers. “There was nothing on it. It was very disappointing for me.” At the time, he thought the problem was with his instrument. “I even took the mirror out of the telescope,” he recalls. “You know,‘What the hell is going on here?’” Only much later, when information on Martian dust storms began to show up in the amateur astronomy literature, did he realize his view had been spoiled by an event happening on Mars.



Gullies on a Martian sand dune in this trio of images from NASA's Mars Reconnaissance Orbiter deceptively resemble features on Earth that are carved by streams of water. However, these gullies likely owe their existence to entirely different geological processes apparently related to the winter buildup of carbon-dioxide frost. Image Credit: NASA/JPL-Caltech/University of Arizona


Gullies on a Martian sand dune in this trio of images from NASA’s Mars Reconnaissance Orbiter deceptively resemble features on Earth that are carved by streams of water. However, these gullies likely owe their existence to entirely different geological processes apparently related to the winter buildup of carbon-dioxide frost. Image Credit: NASA/JPL-Caltech/University of Arizona
By that time Parker was in high school, and soon Martian canals became much less important than more earthly matters. “Football and blondes were my major,” he quips. Then it was off to college, and his telescope sat unused in its wooden shelter in the backyard. When it came time for his internship he convinced his wife, Maureen, that they should move to Florida so he could pursue his interest in scuba diving.

Needless to say he had no time for astronomy then, or during his residency. Then came a stint in the navy, and by the early 1970s he was back in Florida, beginning his career as an anesthesiologist and raising a family. By the time Mars made another close approach in 1973 Parker had brought his telescope down from Chicago; his parents had asked him to take it out of the backyard so they could put in a birdbath, and a few months after that, he remembers, “Maureen said, ‘Can you get that thing out of the garage?’”

He didn’t expect it to do him much good outside, however. The conventional wisdom was that south Florida, with its clouds and frequent storms, was a terrible place to do astronomy. But he found out differently that summer, when he trained his telescope on Mars. “I went, ‘Holy shit.’ It was just absolutely steady. I couldn’t believe it.”

Parker returned to his old practice of making drawings at the eyepiece to record as much detail as possible. He sent some of his work to Charles “Chick” Capen, an astronomer at Arizona’s Lowell Observatory and coordinator of Mars observations for the Association of Lunar and Planetary Observers. Soon he and Capen were in frequent contact, and from him Parker learned about the latest techniques for planetary photography.

In the 1970s that was a time-consuming process; he used professional-grade film ordered directly from Kodak and developed it with special, highly toxic chemicals that had to be laboriously prepared for each session. But that became a part of his life’s routine: off to the hospital in the morning, sailing with Maureen in the afternoon, nights at the telescope, and the rest of the time developing and printing his pictures. Returning to work after a beautiful Florida weekend, he says, “Everybody would come in with a nice tan; I’d come in looking like a bed sheet. Forty-eight hours in the darkroom! People would say, ‘Are you ill?’”

All that effort paid off. Parker’s planetary photos were now appearing frequently in Sky & Telescope. But they still couldn’t record the kind of details a good observer could see at the eyepiece. Soon Chick Capen was steering him, gently, toward more ambitious Martian observing projects—especially the exacting task of monitoring the planet’s north polar ice cap. Using a measuring device called a filar micrometer attached to their telescopes, Parker and fellow amateur Jeff Beish studied the cap as it shrank during the Martian spring and summer. Observations going back to the early years of the twentieth century showed that the north polar cap always shrank at the same predictable rate, but in the 1980s Parker and Beish found a surprise: The cap shrank more quickly, and to a smaller size, than ever before. Years before most people had even heard the term “global warming” (and more than a decade before evidence from NASA’s Mars Global Surveyor mission) Parker and Beish had found evidence that it was taking place on Mars.



Hubble images show cloud formations (left) and the effects of a global dust storm on Mars (Credit: NASA/Hubble)


Hubble images show cloud formations (left) and the effects of a global dust storm on Mars (Credit: NASA/Hubble)
Soon their observations were being reinforced by several kinds of data from other astronomers, a convergence that Parker remembers as tremendously thrilling. “All this stuff began to come together,” Parker says. “The dust storm frequencies, the cloud study frequencies, the polar cap shit. And it’s almost better than sex. And it came in from a lot of different observers, different times. It’s really kind of cool—when you’re in a science and something all of a sudden falls into place that you don’t expect. It’s really neat. Nothing’s better than sex, but it’s close.” His work with Beish and other observers was later published, to Parker’s great satisfaction, in the professional planetary science journal Icarus. For Parker it epitomizes the rewards of all those hours at the eyepiece. “It’s the thrill of the hunt,” he says. “That’s really the only thing that’s kept me going. Taking pretty pictures is fine and fun, but doing that for thirty years, it wears after a while. You’ve taken one pretty picture, you’ve taken them all.”

In the 1990s, though, the pictures started to get really pretty. For the first time, amateurs had access to electronic cameras using charged-coupled devices (CCDs), like the ones in NASA spacecraft and professional observatories. Around 1990 fellow amateur astronomer Richard Berry convinced Parker to invest in one of these new cameras, but he had a tough time getting used to it. “I hooked it up,” he remembers. “I didn’t know what to do with it. I was afraid of it. So I went back to film.”



Don Parker's image of Jupiter and the Great Red Spot, taken in 2012. Credit: Don Parker.


Don Parker’s image of Jupiter and the Great Red Spot, taken in 2012. Credit: Don Parker.


Some months later Berry came for a visit and showed Parker what he’d been missing. They pointed Parker’s sixteen-inch telescope at Jupiter, and when the first image came up on his computer screen, “It was ten times better than anything I’d ever gotten with film. The detail was amazing. It was really exciting.”


Before long Parker had completely switched over to using his electronic imager, and he never looked back. Unlike film, it offered instant gratification; no longer did he have to spend hours in the darkroom before he could see results. Even more important, the extraordinary sensitivity of CCDs allowed much shorter exposure times than film, making it possible to record a planet during those brief moments of good seeing. He could even create remarkably detailed color images by taking separate exposures through red, green, and blue filters, then combining the results in newly developed programs like Adobe Photoshop.

And to Parker’s great relief, electronic images proved as good as visual observations for monitoring Martian features like clouds, dust storms, and— thankfully—the changing polar ice caps. At last, he could put aside the filar micrometer and the tedious hours that went along with it. But there was no way around the fact that the whole experience of planetary observing had changed for serious amateurs like Parker, just as it had for professionals. He realized this during Richard Berry’s visit, as they filled his computer’s hard drive with electronic portraits of Jupiter. “I said to Richard, ‘We’ve been here for six hours and haven’t even looked through the telescope.’ And he said, ‘Yeah, now you’re a real astronomer!’”

August 26, 2003,
Coral Gables, Florida


With no time for a road trip, I’ve packed my webcam and flown to Miami. I arrive at Don Parker’s waterfront home shortly after he has awakened from yet another all-nighter at the telescope. Don is tall, pot bellied, and nearly bald, with a kind of leering, lopsided grin that spreads mischievously across his face. In his old hospital scrubs he reminds me of Peter Boyle in Young Frankenstein. Don wouldn’t mind hearing me say that; he often refers to himself as Mongo, after the character in another Mel Brooks film, Blazing Saddles. (For example: “Mongo got good pictures. Mongo happy.”)

When he was a practicing anesthesiologist he had a penchant for playing crude practical jokes in the O.R. to startle the nurses (the fart machine was a favorite). “It was like MASH,” he says. Now that he is retired there is nothing to stop him from spending every clear night at the telescope—and that is what he does, whenever Mars shines overhead. Back in 1984, when the seeing was even better than it is now, he and Jeff Beish logged 285 nights of making drawings, photos, and micrometer measurements. Parker says, “We were praying for rain. Going to the Seminole reservation to pay the guys to do a rain dance.” Two decades later, his “other life” has become his life. For months now, as Mars has grown from an orange speck in the predawn sky to its current brilliance, high overhead at midnight, Don has faithfully recorded its changing aspect, the shrinking polar cap, the comings and goings of blue hazes and yellow dust clouds, the parade of deserts and dark markings. Maureen is now a full-fledged Mars widow. Don calls it “The Curse of the Red Planet.”

For me this is the big night, and I am full of anticipation. About twelve hours from now, at 5:51am Eastern Daylight Time on August 27, Mars will be 34,646,418 million miles away from Coral Gables. An astronomer at JPL has figured out that this is closer than at any time since the year 57617 B.C., and closer than Mars will be again until the year 2287. For Don, though, this is just one more night in an unbroken string of nights that began last April and will continue into next spring. Don, of course, is far from the only one so afflicted. At any given moment this summer someone around the world is observing Mars, including a couple of twenty-something wizards in Hong
Kong and Singapore who are getting spectacular results with telescopes placed on their high-rise apartment balconies (when I mention them Don curses ruefully, then laughs).

Sitting in Don’s kitchen, we discuss the weather for the coming night— the continuing hurricane season has made things a bit iffy—as he mixes his standard brew of freeze-dried coffee, sugar, and nondairy creamer, a concoction that seems less like a beverage than a research project in polymer chemistry. Arthritis and weakening of the bones in his legs have left him with a limp so painful that he must use a cane, and as he leads me to his upstairs office he utters a string of profanities.

Seated at the computer he unveils his most recent images and I am astonished by their clarity. Even back in April, when Mars was a fraction of its current apparent size, Don was getting a remarkable amount of detail. Now his pictures are so good that they hold up in side-by-side comparisons with Mars images from the Hubble Space Telescope. If you know where to look, you can even spot the giant volcano, Olympus Mons.

When I was growing up, even the two-hundred-inch giant at Palomar couldn’t come close to the details Don has recorded with a telescope just sixteen inches in diameter.

By nightfall the sky is mercifully clear, and Don sets up a ten-inch scope for me to use. The view is amazing: The planet’s disc is shaded with subtle, dusky patterns, far more detailed than any previous view of Mars I’ve ever seen. But when I attach the webcam and fire up the laptop, the live video that appears before me is almost too good to be true. Mars is so big, so clear, that I can even see individual dark spots that must be huge, windblown craters, trailing streaks of dark sand across the pink deserts. At the south pole, the retreating ice cap gleams brilliantly, with an outlier of frosted ground distinctly visible adjacent to the larger white mass.

Long into the night, and again the next, Don and I gather our photographic records of this unprecedented encounter, he at one telescope, I at the other. I feel lucky to be alive at this moment, suspended between the time of the Neanderthals and the twenty-third century, when some of our descendants will be on Mars, looking back at Earth. Right now I am face-to-face with Mars in a way I have never been, and never will be again. It is not the Mars of my childhood picture books, or the one revealed by an armada of space probes, or the trackless world where men and women will someday leave footprints. At this moment, I am exploring Mars, and 35 million miles doesn’t seem like much, not much at all.



Andrew Chaikin.


Andrew Chaikin.
Find out more about Chaikin’s books “A Passion for for Mars,” “A Man on the Moon” and more at Chaikin’s website.

Share this:

Thursday, March 5, 2015

solar eclipse space moon earth sun

solar eclipse space moon earth sun:



solar-eclipse-space-moon-earth-sun-other-1136x640.jpg
Date: Mar 2, 2015, 12:19 PM

Number of Comments on Photo:0

View Photo
Original enclosures:


Wednesday, February 4, 2015

FULL HD BLUE SPACE PLANETS STARS EARTH WALLPAPER

FULL HD BLUE SPACE PLANETS STARS EARTH WALLPAPER
  FULL HD BLUE SPACE PLANETS STARS EARTH WALLPAPER
 
FULL HD BLUE SPACE PLANETS STARS EARTH WALLPAPER

Saturday, January 24, 2015

PLANET EARTH IN THE UNIVERSE

PLANET EARTH IN THE UNIVERSE :

PLANET EARTH IN THE UNIVERSE
PLANET EARTH IN THE UNIVERSE