Founded in 1952, Lawrence Livermore National Laboratory (www.llnl.gov) is a national security laboratory that develops science and engineering technology and provides innovative solutions to our nation's most important challenges. Lawrence Livermore National Laboratory is managed by Lawrence Livermore National Security, LLC for the U.S. Department of Energy's National Nuclear Security Administration.
New pictures show fourth planet in giant version of our solar system
2010-12-09
(Press-News.org) LIVERMORE, Calif. – Astronomers have discovered a fourth giant planet, joining three others that, in 2008, were the subject of the first-ever pictures of a planetary system orbiting another star other than our sun.
The solar system, discovered by a team from Lawrence Livermore National Laboratory and the National Research Council of Canada (NRC) Herzberg Institute of Astrophysics with collaborators at University of California, Los Angeles and Lowell Observatory, orbits around a dusty young star named HR8799, which is 129 light years away. All four planets are roughly five to seven times the mass of Jupiter.
Now, the same research team has discovered a fourth planet that is about seven times the mass of Jupiter. Using high-contrast, near infrared adaptive optics on the Keck II telescope in Hawaii, the astronomers imaged the fourth planet (dubbed HR8799e) in 2009 and confirmed its existence and orbit in 2010. The research appears in the Dec. 8 edition of the journal Nature.
"The images of this new inner planet in the system is the culmination of 10 years worth of innovation, making steady progress to optimize every observation and analysis step to allow the detection of planets located ever closer to their stars," said Christian Marois, a former LLNL postdoc now at NRC, and first author of the new paper.
If this newly discovered planet was located in orbit around our sun, it would lie between Saturn and Uranus. At about 30 million years old, this giant version of our solar system is young compared to our system, which is about 4.6 billion years old.
Though the system is very much like our own, it is much more extreme than our own – the combined mass of the four giant planets may be 20 times higher, and the asteroid and comet belts are dense and turbulent. In fact, the massive planets' pull on each other gravitationally, and the system may be on the verge of falling apart.
Lawrence Livermore scientists simulated millions of years of evolution of the system, and showed that to have survived this long, the three inner planets may have to orbit like clockwork, with the new planet going around the star exactly four times while the second planet finishes two orbits in the time it takes the outer planet to complete one. This behavior was first seen in the moons of Jupiter but has never before been seen on this scale.
Studying the planet's orbits also will help estimate their masses. "Our simulations show that if the objects were not planets, but supermassive 'brown dwarfs,' the system would have fallen apart already," said Quinn Konopacky, a postdoctoral researcher at LLNL's Institute of Geophysics and Planetary Physics and a key author of the paper. (Brown dwarfs are "failed stars", too low in mass to sustain stable hydrogen fusion but larger than planets.)
"The implication is that we have truly found a unique new system of planets. We don't yet know if the system will last for billions of years, or fall apart in a few million more. As astronomers carefully follow the HR8799 planets during the coming decades, the question of just how stable their orbits are could become much clearer."
The origin of these four giant planets remains a puzzle. It neither follows the "core accretion" model, in which planets form gradually close to stars where the dust and gas are thick or the "disk fragmentation" model in which a turbulent planet-forming disk rapidly cools and collapses out at its edges. Bruce Macintosh, a senior scientist at LLNL and the principal investigator for the Keck Observatory program, said: "There's no simple model that can make all four planets at their current location. It's a challenge for our theoretical colleagues."
Previous observations had shown evidence for a dusty asteroid belt orbiting closer to the star – the new planet's gravity helps account for the location of those asteroids, confining their orbits just like Jupiter does in our solar system. "Besides having four giant planets, both systems also contain two so-called 'debris belts' composed of small rocky and/or icy objects along with lots of tiny dust particles, similar to the asteroid and Kuiper comet belts of our solar system," noted co-author Ben Zuckerman, a professor of physics and astronomy at UCLA.
"Images like these bring the exoplanet field into the era of characterization," said Travis Barman, a Lowell Observatory exoplanet theorist and co-author of the current paper. "Astronomers can directly examine the atmospheric properties of four giant planets orbiting another star that are all the same young age and that formed from the same building materials."
"I think there's a very high probability that there are more planets in the system that we can't detect yet," Macintosh said. "One of the things that distinguishes this system from most of the extrasolar planets that are already known is that HR8799 has its giant planets in the outer parts - like our solar system does - and so has 'room' for smaller terrestrial planets – far beyond our current ability to see – in the inner parts."
A team led by Macintosh is constructing the Gemini Planet Imager (http://gpi.berkeley.edu), a new system that will be up to 100 times more sensitive than current instruments and able to image planets similar to our own Jupiter around nearby stars.
"It's amazing how far we've come in a few years," Macintosh said. "In 2007, when we first saw the system, we could barely see two planets out past the equivalent of Pluto's orbit. Now we're imaging a fourth planet almost where Saturn is on our solar system. It's another step to the ultimate goal – still more than a decade away – of a picture showing another planet like Earth."
INFORMATION:
ELSE PRESS RELEASES FROM THIS DATE:
School-based program effective in helping adolescents
2010-12-09
(New York, December 8, 2010) – A school-based intervention program helped New York City high school students with moderate to severe asthma better manage their symptoms, dramatically reducing the need for urgent care, including hospitalizations and emergency room visits, according to a study published online in the American Journal of Respiratory and Critical Care Medicine.
Students in the eight-week program reported a 28% reduction in acute medical visits, a 49% reduction in emergency department visits, and a 76% reduction in hospitalizations compared with asthmatic ...
Older survivors of mechanical ventilation can expect significant disability
2010-12-09
Patients aged 65 and older who survive an episode of mechanical ventilation during a hospitalization are more likely to suffer from long-term disabilities after leaving the hospital than those who survive hospitalization without mechanical ventilation, according to researchers at the University of Pittsburgh. These results were borne out even though the levels of functional disability prior to hospitalization were similar in both groups.
The study was published online ahead of the print edition of the American Thoracic Society's American Journal of Respiratory and Critical ...
Autism breakthrough: Researchers identify possible treatment for impaired sociability
2010-12-09
NORFOLK, Va. – Eastern Virginia Medical School researchers have identified a potential novel treatment strategy for the social impairment of people with Autism Spectrum Disorders (ASD), an aspect of the condition that has a profound impact on quality of life.
"Persons with Autism Spectrum Disorders are either disinterested in social interactions or find them unpleasant. They often don't understand what other people are thinking or feeling and misinterpret social cues," said Stephen I. Deutsch, MD, PhD, the Ann Robinson Chair and professor of psychiatry and behavioral ...
World's first microlaser emitting in 3-D
2010-12-09
WASHINGTON, Dec. 8 – Versatile electronic gadgets should employ a number of important criteria: small in size, quick in operation, inexpensive to fabricate, and deliver high precision output. A new microlaser, developed at the Jožef Stefan Institute in Ljubljana, Slovenia embodies all these qualities. It is small, tunable, cheap, and is essentially the world's first practical three-dimensional laser.
As described in Optics Express, an open-access journal published by the Optical Society (OSA), Slovenian scientists Matjaž Humar and Igor Muševič have developed a microdroplet ...
Carbon-rich planet: A girl's best friend?
2010-12-09
A peculiar gas-giant planet orbiting a sun-like star 1200 light-years away is the first carbon-rich world ever observed.
The implications are big for planetary chemistry, because without much oxygen, common rocks throughout the planet would be made of pure carbon, in forms such as diamonds or graphite.
"On most planets, oxygen is abundant. It makes rocks such as quartz and gases such as carbon dioxide," said University of Central Florida professor Joseph Harrington, one of the study's lead researchers. "With more carbon than oxygen, you would get rocks of pure carbon, ...
Greenland ice sheet flow driven by short-term weather extremes, not gradual warming: UBC research
2010-12-09
Sudden changes in the volume of meltwater contribute more to the acceleration – and eventual loss – of the Greenland ice sheet than the gradual increase of temperature, according to a University of British Columbia study.
The ice sheet consists of layers of compressed snow and covers roughly 80 per cent of the surface of Greenland. Since the 1990s, it has been documented to be losing approximately 100 billion tonnes of ice per year – a process that most scientists agree is accelerating, but has been poorly understood. Some of the loss has been attributed to accelerated ...
Astronomers discover, image new planet in planetary system very similar to our own
2010-12-09
An international team of astronomers has discovered and imaged a fourth giant planet outside our solar system, a discovery that further strengthens the remarkable resemblances between a distant planetary system and our own.
The research is published Dec. 8 in the advance online version of the journal Nature.
The astronomers say the planetary system resembles a supersized version of our solar system.
"Besides having four giant planets, both systems also contain two 'debris belts' composed of small rocky or icy objects, along with lots of tiny dust particles," ...
Trauma surgeon leads call to action for pediatric applied trauma research network
2010-12-09
LOS ANGELES (December 8, 2010) – Jeffrey S. Upperman, MD, director of the Trauma Program at Children's Hospital Los Angeles, has co-authored a call to action for filling a significant gap in pediatric public health care and seeks federal oversight to establish the framework for a pediatric applied trauma research network (PATRN). This call to action was published simultaneously in the Journal of Pediatric Surgery and the Journal of Trauma.
"The establishment of a pediatric trauma research network will be an important advance in trauma care in the U.S.," said Dr. Upperman. ...
Study suggests cranberry juice not effective against urinary tract infections
2010-12-09
Drinking cranberry juice has been recommended to decrease the incidence of urinary tract infections, based on observational studies and a few small clinical trials. However, a new study published in the January 1 issue of Clinical Infectious Diseases, and now available online (http://cid.oxfordjournals.org/content/52/1/23.full), suggests otherwise.
College-aged women who tested positive for having a urinary tract infection were assigned to drink eight ounces of cranberry juice or a placebo twice a day for either six months or until a recurrence of a urinary tract infection, ...
Blue whale-sized mouthfuls make foraging super efficient
2010-12-09
Diving blue whales can dive for anything up to 15 minutes. However, Bob Shadwick from the University of British Columbia, Canada, explains that blue whales may be able to dive for longer, because of the colossal oxygen supplies they could carry in their blood and muscles, so why don't they? 'The theory was that what they are doing under water must use a lot of energy,' says Shadwick. Explaining that the whales feed by lunging repeatedly through deep shoals of krill, engulfing their own body weight in water before filtering out the nutritious crustaceans, Shadwick says, ...