FROM: U.S. JUSTICE DEPARTMENT
Monday, August 26, 2013
Man Who Threatened Synagogue in Fargo, North Dakota, Charged with Civil Rights Violation
Acting Assistant Attorney General for the Civil Rights Division Jocelyn Samuels and U.S. Attorney for the District of North Dakota Timothy Q. Purdon announced that Dominique Jason Flanigan was arraigned today on civil rights and threats charges.
Flanigan was indicted under seal by a grand jury on Dec. 12, 2012, for threatening a synagogue in Fargo, N.D. The two-count indictment charges Flanigan with issuing a threatening interstate communication and with interfering with a federally protected activity. The indictment was unsealed prior to his arraignment.
The indictment alleges that, on Jan. 4, 2011, Flanigan called Temple Beth El in Fargo, and left a voice mail message threatening the employees of the synagogue. The indictment charges that this threat intimidated and interfered with Temple Beth El employees because of their religion.
An indictment is merely an accusation and the defendant is presumed innocent unless proven guilty.
This case is being investigated by the FBI and is being prosecuted by Assistant U.S. Attorneys Lynn C. Jordheim and Megan A. Healy of the U.S. Attorney’s Office for the District of North Dakota and Trial Attorney Dana Mulhauser of the Criminal Section of the Civil Rights Division
Thursday, August 29, 2013
RED SKY AT NIGHT
FROM: NATIONAL SCIENCE FOUNDATION
Is it a bird, a plane, a UFO? It's a...red sprite
Strange lights in the sky studied by atmospheric scientists
Is it a bird, is it a plane, is it a UFO? Strange lights in the sky are being closely watched by atmospheric scientists.
Dubbed red sprites by researchers, these dancing fairies-of-the-clouds are sometimes glimpsed as blood-red bursts of light in the shape of jellyfish.
At other times, they appear as trumpet-shaped blue emissions, called blue jets. Like the most elusive of nymphs, however, red sprites and blue jets come out on only one occasion: during severe thunderstorms.
Although sporadically reported for years by airline pilots, only in the past decade or two has there been enough evidence to convince atmospheric scientists to investigate the phenomenon.
What's that in the skies?
Now baffled researchers asking "What in the world is this?" may have found answers.
Above a thunderstorm's black clouds, sprites appear as bursts of red light flashing far into Earth's atmosphere, according to scientist Hans Nielsen of the University of Alaska at Fairbanks.
The brief flashes look like glowing jellyfish, with red bells and purple tentacles. In a single night, a large thunderstorm system can emit up to one hundred sprites.
Into the wild blue--or red--yonder
Nielsen, Jason Ahrns, also of the University of Alaska at Fairbanks, Matthew McHarg of the U.S. Air Force Academy and researchers from Fort Lewis College teamed up this summer to study sprites.
They used the National Science Foundation (NSF)/National Center for Atmospheric Research Gulfstream-V aircraft, a high-flying plane capable of reaching altitudes of 50,000 feet, to conduct their research. Their project is funded by NSF.
Sprites are similar to lightning, say Nielsen and McHarg, in that they are electrical discharges from the atmosphere.
But while sprites mimic lightning "in some ways," says McHarg, "they're different in others. Lightning happens below and within clouds, at altitudes of two to five miles. Sprites occur far above the clouds, at about 50 miles up--10 times higher than lightning."
They're also huge, he says, reaching 30 miles high.
"Red sprites don't last very long, though, about one-one thousandth of a second. That's 300 times quicker than the time it takes us to blink!"
Blue jets, which weren't directly part of the scientists' study, stick around longer than red sprites, originate at the tops of storm clouds, and shoot up to an altitude less than half that of red sprites. Blue jets are narrower than red sprites, and fan out like trumpet-shaped flowers in blue or purple hues.
"This field of research is fast evolving, and is important for understanding the global electric circuit," says Anne-Marie Schmoltner, program director in NSF's Division of Atmospheric and Geospace Sciences, which supports the research. "The red sprite airborne field campaign this summer provided observations at unprecedented time resolutions."
What makes thunderstorms' celestial lights
Atmospheric researchers have developed theories to try to explain these celestial lights.
Red sprites may happen at the time of positively charged cloud-to-ground lightning strikes, which make up about ten percent of all lightning and are many times more powerful than more common, negatively charged lightning.
The flashes may be akin to giant electric sparks.
After a powerful ground strike, the electric field above a thunderstorm may become strengthened to the point that it causes an "electrical breakdown," an overload that weakens the atmosphere's resistance to electric current flow. The result is an immense red spark, or sprite, in the atmosphere.
Although still something of a mystery, red sprites have helped solve other long-standing questions.
Scientists have found that red sprites create some of the low-frequency radio bursts picked up for years by instruments around the world, but whose source was unknown.
Large bursts of gamma rays, emanating from Earth rather than space, originate during thunderstorms, although their exact relationship to red sprites remains unclear.
Researchers now wonder whether red sprites (and blue jets) might affect the atmosphere in important ways.
For example, sprites and jets might alter the chemical composition of the upper atmosphere. Though brief, they could set off lasting charges.
Sprites' deep red color is caused by the light emitted from nitrogen molecules in the atmosphere, says McHarg. Red sprites may turn out to be important to atmospheric chemistry and global climate by changing concentrations of nitric oxides high in the atmosphere.
The researchers are using a technique called high-speed spectroscopy to study sprites' different colors to determine the amount of energy the sprites carry, and to find out more about their chemical composition.
How to see a sprite
Can thunderstorm-watchers on the ground glimpse red sprites and blue jets with the naked eye? Yes, if they know where to look.
Viewers must be able to see a distant thunderstorm with no clouds in the way, in an area without city lights. Then they must look above the storm, not at the lightning within the clouds.
It's likely, say the scientists, that if watchers wait long enough, they'll see a red sprite. Blue jets are more elusive. The best viewing would probably come from a plane flying very high, and located miles and miles away from a thunderstorm.
With its rubber tires, a car may be the safest vehicle from which to hunt for ephemeral sprites of the thunderclouds.
Is it a bird, a plane, a UFO? It's a...red sprite
Strange lights in the sky studied by atmospheric scientists
Is it a bird, is it a plane, is it a UFO? Strange lights in the sky are being closely watched by atmospheric scientists.
Dubbed red sprites by researchers, these dancing fairies-of-the-clouds are sometimes glimpsed as blood-red bursts of light in the shape of jellyfish.
At other times, they appear as trumpet-shaped blue emissions, called blue jets. Like the most elusive of nymphs, however, red sprites and blue jets come out on only one occasion: during severe thunderstorms.
Although sporadically reported for years by airline pilots, only in the past decade or two has there been enough evidence to convince atmospheric scientists to investigate the phenomenon.
What's that in the skies?
Now baffled researchers asking "What in the world is this?" may have found answers.
Above a thunderstorm's black clouds, sprites appear as bursts of red light flashing far into Earth's atmosphere, according to scientist Hans Nielsen of the University of Alaska at Fairbanks.
The brief flashes look like glowing jellyfish, with red bells and purple tentacles. In a single night, a large thunderstorm system can emit up to one hundred sprites.
Into the wild blue--or red--yonder
Nielsen, Jason Ahrns, also of the University of Alaska at Fairbanks, Matthew McHarg of the U.S. Air Force Academy and researchers from Fort Lewis College teamed up this summer to study sprites.
They used the National Science Foundation (NSF)/National Center for Atmospheric Research Gulfstream-V aircraft, a high-flying plane capable of reaching altitudes of 50,000 feet, to conduct their research. Their project is funded by NSF.
Sprites are similar to lightning, say Nielsen and McHarg, in that they are electrical discharges from the atmosphere.
But while sprites mimic lightning "in some ways," says McHarg, "they're different in others. Lightning happens below and within clouds, at altitudes of two to five miles. Sprites occur far above the clouds, at about 50 miles up--10 times higher than lightning."
They're also huge, he says, reaching 30 miles high.
"Red sprites don't last very long, though, about one-one thousandth of a second. That's 300 times quicker than the time it takes us to blink!"
Blue jets, which weren't directly part of the scientists' study, stick around longer than red sprites, originate at the tops of storm clouds, and shoot up to an altitude less than half that of red sprites. Blue jets are narrower than red sprites, and fan out like trumpet-shaped flowers in blue or purple hues.
"This field of research is fast evolving, and is important for understanding the global electric circuit," says Anne-Marie Schmoltner, program director in NSF's Division of Atmospheric and Geospace Sciences, which supports the research. "The red sprite airborne field campaign this summer provided observations at unprecedented time resolutions."
What makes thunderstorms' celestial lights
Atmospheric researchers have developed theories to try to explain these celestial lights.
Red sprites may happen at the time of positively charged cloud-to-ground lightning strikes, which make up about ten percent of all lightning and are many times more powerful than more common, negatively charged lightning.
The flashes may be akin to giant electric sparks.
After a powerful ground strike, the electric field above a thunderstorm may become strengthened to the point that it causes an "electrical breakdown," an overload that weakens the atmosphere's resistance to electric current flow. The result is an immense red spark, or sprite, in the atmosphere.
Although still something of a mystery, red sprites have helped solve other long-standing questions.
Scientists have found that red sprites create some of the low-frequency radio bursts picked up for years by instruments around the world, but whose source was unknown.
Large bursts of gamma rays, emanating from Earth rather than space, originate during thunderstorms, although their exact relationship to red sprites remains unclear.
Researchers now wonder whether red sprites (and blue jets) might affect the atmosphere in important ways.
For example, sprites and jets might alter the chemical composition of the upper atmosphere. Though brief, they could set off lasting charges.
Sprites' deep red color is caused by the light emitted from nitrogen molecules in the atmosphere, says McHarg. Red sprites may turn out to be important to atmospheric chemistry and global climate by changing concentrations of nitric oxides high in the atmosphere.
The researchers are using a technique called high-speed spectroscopy to study sprites' different colors to determine the amount of energy the sprites carry, and to find out more about their chemical composition.
How to see a sprite
Can thunderstorm-watchers on the ground glimpse red sprites and blue jets with the naked eye? Yes, if they know where to look.
Viewers must be able to see a distant thunderstorm with no clouds in the way, in an area without city lights. Then they must look above the storm, not at the lightning within the clouds.
It's likely, say the scientists, that if watchers wait long enough, they'll see a red sprite. Blue jets are more elusive. The best viewing would probably come from a plane flying very high, and located miles and miles away from a thunderstorm.
With its rubber tires, a car may be the safest vehicle from which to hunt for ephemeral sprites of the thunderclouds.
Wednesday, August 28, 2013
DEFENSE SECRETARY HEGEL MEETS WITH ASEAN DEFENSE MINISTER
FROM: U.S. DEFENSE DEPARTMENT
Readout of Secretary Hagel's Meeting with ASEAN Defense Ministers in Brunei
Pentagon Press Secretary George Little provided the following readout:
"Today in Brunei, Secretary of Defense Chuck Hagel met with his counterparts from the 10 ASEAN nations and the ASEAN secretary general. The group discussed the need to advance practical cooperation to build trust and lower tensions throughout the region.
The ASEAN defense ministers accepted Secretary Hagel's invitation for a first-ever meeting in the U.S. with all ten ASEAN defense ministers in Hawaii next year. The meeting provides an additional opportunity to deepen regional cooperation.
Secretary Hagel noted the need to continue progress toward peaceful resolution of territorial disputes, and committed to continued U.S. support for ASEAN, including its defense ministers' meeting, as a strong organization for achieving shared goals and upholding common good."
Readout of Secretary Hagel's Meeting with ASEAN Defense Ministers in Brunei
Pentagon Press Secretary George Little provided the following readout:
"Today in Brunei, Secretary of Defense Chuck Hagel met with his counterparts from the 10 ASEAN nations and the ASEAN secretary general. The group discussed the need to advance practical cooperation to build trust and lower tensions throughout the region.
The ASEAN defense ministers accepted Secretary Hagel's invitation for a first-ever meeting in the U.S. with all ten ASEAN defense ministers in Hawaii next year. The meeting provides an additional opportunity to deepen regional cooperation.
Secretary Hagel noted the need to continue progress toward peaceful resolution of territorial disputes, and committed to continued U.S. support for ASEAN, including its defense ministers' meeting, as a strong organization for achieving shared goals and upholding common good."
LANL GIVES RELIABILITY TECHNOLOGY AWARD
FROM: LOS ALAMOS NATIONAL LABORATORY
Reliability Technology earns prestigious Los Alamos award
Technology transferred to Procter & Gamble basis for first-ever Feynman Prize
LOS ALAMOS, N.M., Aug. 27, 2013—Los Alamos National Laboratory has honored Michael Hamada, Harold Martz and a team of LANL researchers with its first Richard Feynman Prize for Innovation Achievement for the team’s long and successful collaboration with Procter & Gamble.
Hamada, Martz and their colleagues worked with Procter & Gamble for years developing a concept known as Reliability Technology—a statistical method that P&G has used to streamline its manufacturing processes and save more than a billion dollars a year in costs by increasing uptime in their plants worldwide.
“Now that the Reliability Technology system has been fully developed by Procter & Gamble, they are bringing the system back to Los Alamos to help us improve our manufacturing operations related to our national security mission,” said Terry Wallace, Principal Associate Director for Global Security at Los Alamos, who awarded the Feynman Prize to Martz and Hamada. “This is an example of ‘full-cycle’ innovation: We bring mission-essential tools to bear on an important complementary problem for industry; it helps us perform our primary mission job, and the innovation comes back to help the Laboratory in another area.”
The team was honored last week during the Laboratory’s 15th-annual outStanding innOvation Awards Reception—an event honoring Laboratory staff members who contribute to the development and transfer of LANL technology for commercialization. Other Los Alamos members of the Reliability Technology team are: Joanne Wendelberger, Ben Sims, Dave Higdon, Brian Williams, Christine Anderson-Cook, Earl Lawrence, Brian Weaver, Leslie Moore, and Richard Picard.
“Los Alamos has a long history of providing solutions to some of our nation's most challenging problems,” said Wallace. “Turning science and engineering into solutions is ‘innovation’ in the truest sense of the word, and the Technology Transfer awards are a celebration of our scientists' and engineers' creativity and success in making a difference, not only to our national security mission, but to society as well.”
The Feynman Prize is named after the iconic physicist who came to Los Alamos during the Manhattan project. Feynman was one of the Laboratory’s first patent holders and Wallace noted that Feynman is also regarded as one of the greatest science communicators of the 20th Century.
“Once a scientific concept is successfully translated into something that can be widely used, understood and accepted, it suddenly becomes something extraordinary,” Wallace said. “Therefore, the Feynman connection is highly relevant to the concept of true innovation.”
“Harry and I are deeply honored to have received the first Richard Feynman Prize for Innovation Achievement,” Hamada said. “We are delighted that LANL provides a work environment that encourages innovation and collaboration. We especially wish to thank our LANL and Procter & Gamble colleagues and management who made this work possible.”
This year’s outStanding innOvation Awards Reception included a keynote speech by Pete Tseronis, Chief Technology Officer for the U.S. Department of Energy. Tseronis was introduced by Duncan McBranch, who is Los Alamos’ CTO. McBranch spoke about the role that innovation and technology transfer play in improving the quality and security of the outside world.
Los Alamos National Security LLC, sponsored the celebration, which was held at the Pajarito Mountain ski lodge.
Reliability Technology earns prestigious Los Alamos award
Technology transferred to Procter & Gamble basis for first-ever Feynman Prize
LOS ALAMOS, N.M., Aug. 27, 2013—Los Alamos National Laboratory has honored Michael Hamada, Harold Martz and a team of LANL researchers with its first Richard Feynman Prize for Innovation Achievement for the team’s long and successful collaboration with Procter & Gamble.
Hamada, Martz and their colleagues worked with Procter & Gamble for years developing a concept known as Reliability Technology—a statistical method that P&G has used to streamline its manufacturing processes and save more than a billion dollars a year in costs by increasing uptime in their plants worldwide.
“Now that the Reliability Technology system has been fully developed by Procter & Gamble, they are bringing the system back to Los Alamos to help us improve our manufacturing operations related to our national security mission,” said Terry Wallace, Principal Associate Director for Global Security at Los Alamos, who awarded the Feynman Prize to Martz and Hamada. “This is an example of ‘full-cycle’ innovation: We bring mission-essential tools to bear on an important complementary problem for industry; it helps us perform our primary mission job, and the innovation comes back to help the Laboratory in another area.”
The team was honored last week during the Laboratory’s 15th-annual outStanding innOvation Awards Reception—an event honoring Laboratory staff members who contribute to the development and transfer of LANL technology for commercialization. Other Los Alamos members of the Reliability Technology team are: Joanne Wendelberger, Ben Sims, Dave Higdon, Brian Williams, Christine Anderson-Cook, Earl Lawrence, Brian Weaver, Leslie Moore, and Richard Picard.
“Los Alamos has a long history of providing solutions to some of our nation's most challenging problems,” said Wallace. “Turning science and engineering into solutions is ‘innovation’ in the truest sense of the word, and the Technology Transfer awards are a celebration of our scientists' and engineers' creativity and success in making a difference, not only to our national security mission, but to society as well.”
The Feynman Prize is named after the iconic physicist who came to Los Alamos during the Manhattan project. Feynman was one of the Laboratory’s first patent holders and Wallace noted that Feynman is also regarded as one of the greatest science communicators of the 20th Century.
“Once a scientific concept is successfully translated into something that can be widely used, understood and accepted, it suddenly becomes something extraordinary,” Wallace said. “Therefore, the Feynman connection is highly relevant to the concept of true innovation.”
“Harry and I are deeply honored to have received the first Richard Feynman Prize for Innovation Achievement,” Hamada said. “We are delighted that LANL provides a work environment that encourages innovation and collaboration. We especially wish to thank our LANL and Procter & Gamble colleagues and management who made this work possible.”
This year’s outStanding innOvation Awards Reception included a keynote speech by Pete Tseronis, Chief Technology Officer for the U.S. Department of Energy. Tseronis was introduced by Duncan McBranch, who is Los Alamos’ CTO. McBranch spoke about the role that innovation and technology transfer play in improving the quality and security of the outside world.
Los Alamos National Security LLC, sponsored the celebration, which was held at the Pajarito Mountain ski lodge.
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