Welcome to Sott.net
Sat, 23 Oct 2021
The World for People who Think

Science & Technology
Map

Telescope

NASA's Fermi telescope unveils a dozen new pulsars


NASA
Tue, 06 Jan 2009 22:32 UTC
Image
© NASA/Fermi/LAT Collaboration
NASA's Fermi Gamma-ray Space Telescope has found 12 previously unknown pulsars (orange). Fermi also detected gamma-ray emissions from known radio pulsars (magenta, cyan) and from known or suspected gamma-ray pulsars identified by NASA's now-defunct Compton Gamma-Ray Observatory (green).
Greenbelt, Maryland -- NASA's Fermi Gamma-ray Space Telescope has discovered 12 new gamma-ray-only pulsars and has detected gamma-ray pulses from 18 others. The finds are transforming our understanding of how these stellar cinders work.

"We know of 1,800 pulsars, but until Fermi we saw only little wisps of energy from all but a handful of them," says Roger Romani of Stanford University, Calif. "Now, for dozens of pulsars, we're seeing the actual power of these machines."

A pulsar is a rapidly spinning and highly magnetized neutron star, the crushed core left behind when a massive sun explodes. Most were found through their pulses at radio wavelengths, which are thought to be caused by narrow, lighthouse-like beams emanating from the star's magnetic poles.

If the magnetic poles and the star's spin axis don't align exactly, the spinning pulsar sweeps the beams across the sky. Radio telescopes on Earth detect a signal if one of those beams happens to swing our way. Unfortunately, any census of pulsars is automatically biased because we only see those whose beams sweep past Earth.

"That has colored our understanding of neutron stars for 40 years," Romani says. The radio beams are easy to detect, but they represent only a few parts per million of a pulsar's total power. Its gamma rays, on the other hand, account for 10 percent or more. "For the first time, Fermi is giving us an independent look at what heavy stars do," he adds.
      Read More...
Bizarro Earth

Solar Geomagnetic Averaged Planetary Index at lowest point in its record

Anthony Watts
Watts Up With That
Sun, 04 Jan 2009 21:41 UTC
As many regular readers know, I've pointed out several times the incident of the abrupt and sustained lowering of the Ap Index which occurred in October 2005. The abrupt step change seemed (to me) to be out of place with the data, and the fact that the sun seems so have reestablished at a lower plateau of the Ap index after that event and has not recovered is an anomaly worth investigating.
      Read More...
Bulb

State of the Sun for 2008: ominously quiet - too quiet

Anthony Watts
Watts Up With That
Sat, 03 Jan 2009 20:09 UTC
The NOAA Space Weather Prediction center updated their plots of solar indices earlier today, on January 3rd. With the exception of a slight increase in the 107 centimeter radio flux, there appears to be even less signs of solar activity. Sunspots are still not following either of the two predictive curves, and it appears that the solar dynamo continues to slumber, perhaps even winding down further. Of particular note, the last graph below showing the Average Planetary Index (Ap) is troubling. I thought there would be an uptick by now, due to expectations of some sign of cycle 24 starting up, but instead it continues to drop.

Comment: Just to see how off our prognosticators can be check out this story from March 24 2008:

Prepare for the Worst, Because Solar Storms Are About to Get Ugly

      Read More...
Telescope

Cassiopeia A Comes Alive Across Time and Space


Center for Astrophysics
Tue, 06 Jan 2009 19:32 UTC
Two new efforts have taken a famous supernova remnant from the static to the dynamic. A new movie of data from NASA's Chandra X-ray Observatory shows changes in time never seen before in this type of object. A separate team will also release a dramatic three-dimensional visualization of the same remnant.

Nearly ten years ago, Chandra's "First Light" image of Cassiopeia A (Cas A) revealed previously unseen structures and detail. Now, after eight years of observation, scientists have been able to construct a movie that tracks the remnant's expansion and changes over time.
      Read More...
Eye 1

Face of the future: the 'all-seeing eye' meets 'all-sniffing nose'


Russia Today
Mon, 05 Jan 2009 17:36 UTC
Humankind seems to be moving closer to creating the world sci-fi writers could only imagine. After creating an electronic nose, capable of sniffing out diseases, scientists have created an 'all-seeing eye' that can look at different directions simultaneously.

Australian scientists have managed to engineer a kind of insect-like (or 'compound') eye which allows for an unobstructed 360 - degree panoramic view.

The device will help scientists emulate what insects see when they fly around the landscape, how they find food, escape predators and navigate. The researchers are especially interested in understanding how bees find their way back home.
      Read More...
Laptop

Apocalypse now - could the internet seize up altogether?


Russia Today
Mon, 05 Jan 2009 17:20 UTC
Life without the internet - American I.T. experts say it could happen within just six years.

While the internet has significantly eased lives of millions, the research by U.S. experts says the web is getting clogged up with traffic and the network might vanish in 2015.

"The world will become bigger again, the feeling that we share the same planet will disappear and the science will not be developing as quickly as it's developing now," said Dmitry Glukhovsky, a popular Internet writer on the prospective.

Although high-speed connections are now taken for granted and it's hard to imagine that people ever lived without Google or Skype, in reality it's only been a few years since people managed to struggle from one day to the next without ever logging on.

In the 1980s when George Watts started working as a translator, there was no Internet. All he had to use was a portable typewriter, dictionaries and libraries.
      Read More...
Einstein

Possible Abnormality In Fundamental Building Block Of Einstein's Theory Of Relativity


Science Daily
Tue, 06 Jan 2009 03:34 UTC
Image
© Indiana University
An image taken from an animation using Kostelecky's Standard Model Extenstion to predict how apples might fall differently.
Physicists at Indiana University have developed a promising new way to identify a possible abnormality in a fundamental building block of Einstein's theory of relativity known as "Lorentz invariance." If confirmed, the abnormality would disprove the basic tenet that the laws of physics remain the same for any two objects traveling at a constant speed or rotated relative to one another.

IU distinguished physics professor Alan Kostelecky and graduate student Jay Tasson take on the long-held notion of the exact symmetry promulgated in Einstein's 1905 theory and show in a paper to be published in Physical Review Letters that there may be unexpected violations of Lorentz invariance that can be detected in specialized experiments.

"It is surprising and delightful that comparatively large relativity violations could still be awaiting discovery despite a century of precision testing," said Kostelecky. "Discovering them would be like finding a camel in a haystack instead of a needle."

Comment: This is old news. In 1979 French physicist Joel Scherk, in a paper entitled "An overview of supersymmetry and supergravity", predicted antigravity.

Here are two rather intriguing pictures taken from his paper:

Joel Scherk - French Connection

Joel Scherk - French Connection 2
At the end of his paper Scherk wrote:
"An antigravity device of this type however still belongs to the fileld of UFOlogy or Science Fiction, and apparently not to the field of mathematical physics."
Here is what you can find in Wikipedia:
"Scherk was born in 1946. He died unexpectedly, and in tragic circumstances, at some date between the end of the 1979 supergravity workshop at the State University of New York at Stony Brook on 29 September 1979, and the publication of the workshop proceedings[4] later in 1979 or in 1980. The workshop proceedings were dedicated to his memory, and stated that he suffered from diabetes, and got stuck somewhere without his insulin, and went into a coma. Another report states that he suffered a breakdown and committed suicide[5]."


      Read More...
Telescope

Stars Forming Just Beyond Black Hole's Grasp At Galactic Center


Science Daily
Tue, 06 Jan 2009 03:21 UTC
young, blue stars encircling a supermassive black hole
© NASA, ESA, and A. Schaller (for STScI)
This artist's concept shows young, blue stars encircling a supermassive black hole at the core of a spiral galaxy like the Milky Way. The background stars are the typical older, redder population of stars that inhabit the cores of most galaxies (including our own). CfA astronomers caught two stars in the act of forming within a few light-years of the Milky Way's center. Their find demonstrates that stars can form at our galaxy's core despite the powerful gravitational tides generated by the black hole.
The center of the Milky Way presents astronomers with a paradox: it holds young stars, but no one is sure how those stars got there. The galactic center is wracked with powerful gravitational tides stirred by a 4 million solar-mass black hole. Those tides should rip apart molecular clouds that act as stellar nurseries, preventing stars from forming in place. Yet the alternative - stars falling inward after forming elsewhere - should be a rare occurrence.

Using the Very Large Array of radio telescopes, astronomers from the Harvard-Smithsonian Center for Astrophysics and the Max Planck Institute for Radio Astronomy have identified two protostars located only a few light-years from the galactic center. Their discovery shows that stars can, in fact, form very close to the Milky Way's central black hole.

"We literally caught these stars in the act of forming," said Smithsonian astronomer Elizabeth Humphreys. She presented the finding today at a meeting of the American Astronomical Society in Long Beach, Calif.
      Read More...
Info

Mystery Of South American Trophy Heads Solved


Science Daily
Tue, 06 Jan 2009 03:06 UTC
Nasca trophy head
© Field Museum
Nasca trophy head from a tomb at the site of Cahuachi.
The mystery of why ancient South American peoples who created the mysterious Nazca Lines also collected human heads as trophies has long puzzled scholars who theorize the heads may have been used in fertility rites, taken from enemies in battle or associated with ancestor veneration.

A recent study using specimens from Chicago's Field Museum throws new light on the matter by establishing that trophy heads came from people who lived in the same place and were part of the same culture as those who collected them. These people lived 2,000 to 1,500 years ago.

Archaeologists determined that the severed heads were trophies because holes were made in the skulls allowing the heads to be suspended from woven cords. A debate has been raging for the past 100 years over their meaning.
      Read More...
Telescope

Astronomers To Gaze Back In Time And Map History Of Universe


Science Daily
Tue, 06 Jan 2009 03:02 UTC
Milky Way galaxy seen at 100 microns
© NASA/JPL-Caltech
Artist's view of Spitzer seen against the infrared sky. The band of light is the glowing dust emission from the Milky Way galaxy seen at 100 microns (as seen by the IRAS/COBE missions).
UK astronomers are set to expand our knowledge of the history of our Universe with a new project to map the inception and formation of galaxies.

Making use of an Infrared Array Camera on NASA's Spitzer Space Telescope, the Spitzer Extragalactic Representative Volume Survey (SERVS) will make a very large map of the sky, capable of detecting extremely faint galaxies. The primary aim is to chart the distribution of stars and black holes from when the Universe was less than a billion years old to the present day.

The survey is one of the largest ever awards of observing time on a space-based observatory - a total of 1400 hours.
      Read More...
Amazon Smile
Revolt! T-shirts