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UBC, U of T team helps solve mystery of starlight's origins
April 09, 2009Scientists from the University of Toronto and the University of British Columbia have helped unveil the birthplaces of ancient stars using a two-tonne telescope carried by a balloon the size of a 33-storey building.
After two years spent analyzing data from the Balloon-borne Large-Aperture Sub-millimeter Telescope (BLAST) project, an international group of astronomers and astrophysicists from Canada, the U.S. and the U.K. reveals today in the journal Nature that half of the starlight of the Universe comes from young, star-forming galaxies several billion light years away.
"While those familiar optical images of the night sky contain many fascinating and beautiful objects, they are missing half of the picture in describing the cosmic history of star formation," says UBC Astronomy Prof. Douglas Scott.
"Stars are born in clouds of gas and dust," says Barth Netterfield, a cosmologist in the Department of Astronomy & Astrophysics at U of T. "The dust absorbs the starlight, hiding the young stars from view. The brightest stars in the Universe are also the shortest lived and many never leave their stellar nursery. However, the warmed dust emits light at far-infrared and submillimetre wavelengths - invisible to the human eye, but visible to the sensitive thermo-detectors on BLAST."
"The history of star formation in the universe is written out in our data. It is beautiful. And it is just a taste of things to come," says UBC Prof. Mark Halpern, part of the UBC team that also includes post-doctoral fellows Ed Chapin and Gaelen Marsden.
In the 1990s, NASA's COBE satellite discovered a nearly uniform glow of submillimetre light, known as the Far Infrared Background. It had been expected that this radiation was coming from warmed dust enshrouding bright young stars, but the nature of the galaxies which contain the dust had remained a mystery.
The Nature study combines BLAST submillimetre observations at wavelengths around 0.3 mm - between infrared and microwave wavelengths - with data at much shorter infrared wavelengths from NASA's Spitzer Space Telescope to confirm that all of the Far Infrared Background comes from individual distant galaxies, answering a decade-old question of the radiation's origin.
In addition to leading the data analysis, the Canadian scientists also constructed much of the hardware that made BLAST a reality. The aluminum gondola was designed to protect the telescope, the onboard computers and data upon landing. The motorized pointing system controlled the 2,000 kilogram payload with its two-metre-in-diameter telescope - the largest of its kind - to one one-hundredth of a degree in precision. The complex electronics monitored and recorded nearly 1,000 sensors while the software - nearly 300,000 lines of code - controlled the payload during its long flight 39 kilometres above the Earth.
Flying the telescope above much of the atmosphere allowed the BLAST team to peer out into the distant Universe at wavelengths nearly unattainable from the ground, and uncover dust-enshrouded galaxies that hide about half of the starlight in the Universe.
"Over the last decade, submillimetre telescopes on the ground have produced several 'black and white' images no larger than the size of a fingernail at the end of your outstretched arm," says Chapin. "In a single 11-day flight BLAST has taken a huge leap forward, producing colour images the size of your hand."
BLAST has acted as a pathfinder for the SPIRE (Spectral and Photometric Imaging Receiver) instrument on the upcoming Herschel satellite, in which Canadians are also involved. Using the same detectors as SPIRE, BLAST has provided an invaluable first look at the submillimetre sky.
"BLAST has given us a new view of the Universe," says Netterfield, whose U of T colleagues on the project include department chair Peter G. Martin and graduate students Marco P. Viero, Donald V. Wiebe (now a post-doc at UBC) and Enzo Pascale (now a faculty member at Cardiff University). "The data we collected enable us to make discoveries in topics ranging from the formation of stars to the evolution of distant galaxies."
BLAST is also uniquely capable of studying the earliest stages of star formation locally, in the Milky Way Galaxy. The BLAST collaboration is also releasing a study, submitted to the Astrophysical Journal, of the largest survey to date of the earliest stages of star formation. This study documents the existence of a large population of cold clouds of gas and dust, many of which have cooled to less than -260 C. These cold cores, which exist for millions of years, are the birthplaces of stars.
"Over the last nine years, I've followed BLAST from Vancouver to Toronto, Philadelphia, New Mexico, Texas, northern Sweden and Antarctica, and it feels great for us to finally announce the results," says Marsden. "These results are a very big step forward in submillimetre astronomy."
"The world-leading scientific success of Canadian graduate students and post-docs working on BLAST has been very impressive and, speaking as an educator, very gratifying," says Halpern.
University of British Columbia
"Stars are born in clouds of gas and dust," says Barth Netterfield, a cosmologist in the Department of Astronomy & Astrophysics at U of T. "The dust absorbs the starlight, hiding the young stars from view. The brightest stars in the Universe are also the shortest lived and many never leave their stellar nursery. However, the warmed dust emits light at far-infrared and submillimetre wavelengths - invisible to the human eye, but visible to the sensitive thermo-detectors on BLAST."
"The history of star formation in the universe is written out in our data. It is beautiful. And it is just a taste of things to come," says UBC Prof. Mark Halpern, part of the UBC team that also includes post-doctoral fellows Ed Chapin and Gaelen Marsden.
In the 1990s, NASA's COBE satellite discovered a nearly uniform glow of submillimetre light, known as the Far Infrared Background. It had been expected that this radiation was coming from warmed dust enshrouding bright young stars, but the nature of the galaxies which contain the dust had remained a mystery.
The Nature study combines BLAST submillimetre observations at wavelengths around 0.3 mm - between infrared and microwave wavelengths - with data at much shorter infrared wavelengths from NASA's Spitzer Space Telescope to confirm that all of the Far Infrared Background comes from individual distant galaxies, answering a decade-old question of the radiation's origin.
In addition to leading the data analysis, the Canadian scientists also constructed much of the hardware that made BLAST a reality. The aluminum gondola was designed to protect the telescope, the onboard computers and data upon landing. The motorized pointing system controlled the 2,000 kilogram payload with its two-metre-in-diameter telescope - the largest of its kind - to one one-hundredth of a degree in precision. The complex electronics monitored and recorded nearly 1,000 sensors while the software - nearly 300,000 lines of code - controlled the payload during its long flight 39 kilometres above the Earth.
Flying the telescope above much of the atmosphere allowed the BLAST team to peer out into the distant Universe at wavelengths nearly unattainable from the ground, and uncover dust-enshrouded galaxies that hide about half of the starlight in the Universe.
"Over the last decade, submillimetre telescopes on the ground have produced several 'black and white' images no larger than the size of a fingernail at the end of your outstretched arm," says Chapin. "In a single 11-day flight BLAST has taken a huge leap forward, producing colour images the size of your hand."
BLAST has acted as a pathfinder for the SPIRE (Spectral and Photometric Imaging Receiver) instrument on the upcoming Herschel satellite, in which Canadians are also involved. Using the same detectors as SPIRE, BLAST has provided an invaluable first look at the submillimetre sky.
"BLAST has given us a new view of the Universe," says Netterfield, whose U of T colleagues on the project include department chair Peter G. Martin and graduate students Marco P. Viero, Donald V. Wiebe (now a post-doc at UBC) and Enzo Pascale (now a faculty member at Cardiff University). "The data we collected enable us to make discoveries in topics ranging from the formation of stars to the evolution of distant galaxies."
BLAST is also uniquely capable of studying the earliest stages of star formation locally, in the Milky Way Galaxy. The BLAST collaboration is also releasing a study, submitted to the Astrophysical Journal, of the largest survey to date of the earliest stages of star formation. This study documents the existence of a large population of cold clouds of gas and dust, many of which have cooled to less than -260 C. These cold cores, which exist for millions of years, are the birthplaces of stars.
"Over the last nine years, I've followed BLAST from Vancouver to Toronto, Philadelphia, New Mexico, Texas, northern Sweden and Antarctica, and it feels great for us to finally announce the results," says Marsden. "These results are a very big step forward in submillimetre astronomy."
"The world-leading scientific success of Canadian graduate students and post-docs working on BLAST has been very impressive and, speaking as an educator, very gratifying," says Halpern.
University of British Columbia
BLAST Current Events and BLAST News RSSNanotech in Space: Rensselaer Experiment To Weather the Trials of Orbit
Novel nanomaterials developed at Rensselaer Polytechnic Institute are scheduled to blast off into orbit on November 16 aboard Space Shuttle Atlantis.
Blast from the past gives clues about early universe
Astronomers using the National Science Foundation's Very Large Array (VLA) radio telescope have gained tantalizing insights into the nature of the most distant object ever observed in the Universe -- a gigantic stellar explosion known as a Gamma Ray Burst (GRB).
All tied up: Tethered protein provides long-sought answer
The tools of biochemistry have finally caught up with lactose repressor protein. Biologists from Rice University in Houston and the University of Florence in Italy this week published new results about "lac repressor," which was the first known genetic regulatory protein when discovered in 1966.
Plastic surgeons should be part of disaster relief planning, response
When a terrorist bomb explodes, a tornado rips through a town, a hurricane devastates a region, or wildfires ravage homes and businesses, plastic surgeons are not typically atop the list of emergency responders.
MU Engineers Develop Safer, Blast-Resistant Glass
To protect from potential terrorist attacks, federal buildings and other critical infrastructures are made with special windows that contain blast-resistant glass. However, the glass is thick and expensive.
LLNL research reveals how blast waves may cause human brain injury even without direct head impacts
New research on the effects of blast waves could lead to an enhanced understanding of head injuries and improved military helmet design.
Scientists make first discovery using revolutionary long wavelength demonstrator array
Scientists from NRL's Space Science and Remote Sensing Divisions, in collaboration with researchers from the University of New Mexico (UNM) and the National Radio Astronomy Observatory (NRAO) located in Socorro, N.M., have generated the first scientific results from the Long Wavelength Demonstrator Array (LWDA).
July 23, 2009 Circulating osteogenic precursor (COP) cells form bone in vivo. Bone from Blood: Circulating Cells Form Bone Outside the Normal Skeleton, Penn Study Finds
The accepted dogma has been that bone-forming cells, derived from the body's connective tissue, are the only cells able to form the skeleton.
HIPS fireproof coatings can really take the heat
HIPS coatings can withstand temperatures of over 1000°C compared to current commercial coatings used on building materials and structures which break down at between 150-250°C.
Traumatic brain injury caused by exposure to explosive blast presents critical challenge
Blast-induced traumatic brain injury (TBI) has reached critical levels in modern-day warfare.
More BLAST Current Events and BLAST News Articles
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Blast! Starring: Chuck Mangione Studio: Paramount Home Video Release Date: 09/23/2005 |
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Blast Starring: Nicky Andrews (II), Clyde Berning, Paul Du Toit, Vivica A. Fox, Warwick Grier A terrorist, Michael Kittredge (Jones), posing as an environmentalist protester leads a team of highly-skilled mercenaries to take control of an oil rig off the coast of California, intending to detonate an electromagnetic bomb over the United States, striking a sort of "new Pearl Harbor" attack on behalf of enemies to the nation. What Kittredge didn't count on is a tugboat captain, Lamont Dixon (Griffin), who survives an attack on his ship, and is soon recruited by an FBI agent (Fox) to infiltrate the oil rig and procure information about their plans... and if possible, stop them. In the process, Dixon meets an eager computer expert (Meyer) aboard the oil rig who helps Dixon even as he gets on his nerves and Lamont suspects he can't really trust him. |
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Blast! An Explosive Musical Celebration Starring: Blast If your favorite part of a football game is when the marching band takes the field, then you're going to love Blast. Think of the most rousing, in-sync band that you ever saw, turn them way up, add cool costumes and a black-and-white checkered stage with colored spotlights, throw in a good helping of the Stomp vibe, and you've got Blast. Color is the theme that threads the different musical pieces together. Beginning with Ravel's Bolero, the audience is pulled into this new music/dance/theatre experience as the band takes the stage marching, twirling, and weaving. The performers aren't simply musicians--they dance, sing, act, and play their brass and drums. "Loss," in the Blue section of the color wheel, is particularly touching. Even the flag team--a very sexy and talented flag... |
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Blast: An Explosive Musical Celebration Blast (Performer), Joe Haworth (Performer), Samuel Barber (Performer), Leonard Bernstein (Performer), Aaron Copland (Performer), Don Ellis (Performer), Maynard / Lane, Nicholas Ferguson (Performer), Ernesto Lecuona (Performer), Chuck Mangione (Performer), Minoru / Spiro, Michael Miki (Performer), Maurice Ravel (Performer), Josh Talbot (Performer), Jonathan Vanderkolff (Performer), Ray Linkous (Performer), James R. West (Performer), Michael Esham (Performer), Wesley Bullock (Performer), Nick Angelis (Performer), Arwen Evenstar Hernandez (Performer), Christopher Eric Rutt (Performer) Blast! has a built-in constituency: the millions who are or have been in high-school marching bands, or twirled batons and engaged in what may have seemed to the uninitiated to be otherwise dorky activities. For the members of the Blast! troupe can identify: these are the kids who were once mocked by the cool crowd and now strut their stuff to admiring legions around the United States. Originating with the Star of Indiana drum corps, Blast is a frantic, loud show of colorful pageantry that's part Riverdance, part Stomp, and part homecoming parade. The music is performed in marching-band fashion, featuring an impressive panoply of brass and percussion: Ravel's Bolero and excerpts from Aaron Copland's Appalachian Spring get Blast!-ed, as well as some lesser-known gems, such as Samuel... |
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Blast Starring: Adam LaVorgna, Liesel Matthews, Blake Heron, Tony Denman Directed By: Martin Schenk When you live in a small town, you make your own fun. You also make your own trouble. Not happy with baseball and ice cream, four friends take up more dangerous hobbies, like dynamite and murder. When Ears, the beauty of the group, mysteriously disappears, suspicion turns to Swenson, the local creep, who may or may not have killed a child years earlier. The friends get their revenge on Swenson, but when Ears suddenly reappears, they have to cover up their crime and their conscience. Tensions run high amongst the group members and the stress threatens to tear them apart. Can they hide the truth when the consequences are deadly? |
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Blast by Ian Korf (Author), Mark Yandell (Author), Joseph Bedell (Author) Sequence similarity is a powerful tool for discovering biological function. Just as the ancient Greeks used comparative anatomy to understand the human body and linguists used the Rosetta stone to decipher Egyptian hieroglyphs, today we can use comparative sequence analysis to understand genomes. BLAST (Basic Local Alignment Search Tool), is a sophisticated software package for rapid searching of nucleotide and protein databases. It is one of the most important software packages used in sequence analysis and bioinformatics. Most users of BLAST, however, seldom move beyond the program's default parameters, and never take advantage of its full power. BLAST is the only book completely devoted to this popular suite of tools. It offers biologists, computational biology students, and... |
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Blast!: An Explosive Musical Celebration Starring: Chuck Mangione If your favorite part of a football game is when the marching band takes the field, then you're going to love Blast. Think of the most rousing, in-sync band that you ever saw, turn them way up, add cool costumes and a black-and-white checkered stage with colored spotlights, throw in a good helping of the Stomp vibe, and you've got Blast. Color is the theme that threads the different musical pieces together. Beginning with Ravel's Bolero, the audience is pulled into this new music/dance/theatre experience as the band takes the stage marching, twirling, and weaving. The performers aren't simply musicians--they dance, sing, act, and play their brass and drums. "Loss," in the Blue section of the color wheel, is particularly touching. Even the flag team--a very sexy and talented flag... |
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Blast From the Past Starring: Steve Bean, Dave Foley, Brendan Fraser, Richard Gilbert-Hill, Ted Kairys Also With: Brendan Fraser (Primary Contributor), Alicia Silverstone (Primary Contributor) MEET ADAM WEBBER, BORN AND RAISED IN A BOMB SHELTER WITH HIS MAD SCIENTIST FATHER AND HIS SHERRY-SWILLING MOTHER. NOW, 35 YEARS LATER, ADAM IS ABOUT TO EMERGE INTO A BEWILDERING NEW WORLD WHERE HE'LL MEET EVE, A MODERN LOS ANGELES WOMAN. FEATURES: SCRIPT TO SCREEN, BLAST TRIVIA GAME, BINGO, AND MUCH MORE. |
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Stomp Out Loud Starring: Michael Bove, Dashiell Eaves, Raquel Horsford, Keith Middleton, Anthony Sparks Directed By: Luke Cresswell, Steve McNicholas Also With: Christophe Lanzenberg (Cinematographer), Charlie Gelber (Editor), Jason Porthouse (Editor), Richard Daws (Editor), David Jon Marks (Producer) Studio: Hbo Home Video Release Date: 06/28/2005 Run time: 50 minutes Rating: Nr |
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Hyper Blast by Wild Planet Entertainment, Inc. Keep your kids active with Hyper Blast, a game that challenges the body and mind. Based on the listen-think-move concept behind award-winning predecessors (Hyper Dash, Hyper Jump and Animal Scramble), this new game is a high-energy alternative to sedentary entertainment. Kids stomp their feet to send numbers flying, and then run to retrieve the numbers as quickly as possible. The game has a base unit with a central launch pad and a speaker that calls out which numbers to run to and pick up. Players must return the numbers to the correct location on the base to receive their next command |
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