 |
|
University of Texas at Austin physicists slow and control supersonic helium beam
March 09, 2007Slow helium beam technique is a breakthrough in the field of atomic optics
AUSTIN, Texas—The speed of a beam of helium atoms can be controlled and slowed using an "atomic paddle" much as a tennis player uses a racquet to control tennis balls, physicists at The University of Texas at Austin have discovered.
The slow helium beam technique—a breakthrough in the field of atom optics—could someday be used to better probe microscopic surfaces or create advanced navigation systems.
"The slow beam is an enabling technology," said Dr. Mark Raizen, the Sid W. Richardson Foundation Regents Chair in Physics. "The next step is to do science with the beams."
Raizen and his colleagues at the Center for Nonlinear Dynamics created the slow helium beams using a yard-long, rapidly spinning titanium blade tipped with silicon wafers that Raizen calls an atomic paddle.
He and his colleagues pumped puffs of super-cooled helium gas into a vacuum chamber containing the paddle using supersonic beam technology developed by Professor Uzi Even of Tel-Aviv University. The paddle's silicon wafers reflected the helium atoms much like a glass mirror reflects a beam of light.
Just as the energy of a tennis ball is absorbed by the motion of a tennis racquet, the motion of the paddle absorbed the energy from the helium beam. The beam was slowed to 560 miles per hour, less than one-eighth the normal velocity of helium.
Raizen's slow beam work is important to understanding the interaction between an atom and a surface, a fundamental aspect of physics that has been investigated since the pioneering work of Otto Stern in 1930. Scientists can bounce atoms off a surface and observe the scattered atoms to learn about the properties of the atoms and the surface.
To date, the main disadvantage of using helium to probe surfaces has been that it typically moves very quickly, nearly 4,500 miles per hour at room temperature. When helium hits a surface at a very high velocity, it tends to scatter in many directions, making it more difficult to observe the atoms after impact and limiting its practical use as a probe.
Slow beams could someday be used in advanced navigation systems with gyroscopes, like those found in airplanes, submarines, space probes and the International Space Station. Gyroscopes allow an object to maintain its orientation or balance, even in outer space.
A gyroscope system based on atoms would have a much higher sensitivity than gyroscope systems that use lasers, said Raizen.
He said that the atomic paddle method could be used in the future to produce even slower helium atoms and ultimately to stop and trap them.
University of Texas at Austin
"The slow beam is an enabling technology," said Dr. Mark Raizen, the Sid W. Richardson Foundation Regents Chair in Physics. "The next step is to do science with the beams."
Raizen and his colleagues at the Center for Nonlinear Dynamics created the slow helium beams using a yard-long, rapidly spinning titanium blade tipped with silicon wafers that Raizen calls an atomic paddle.
He and his colleagues pumped puffs of super-cooled helium gas into a vacuum chamber containing the paddle using supersonic beam technology developed by Professor Uzi Even of Tel-Aviv University. The paddle's silicon wafers reflected the helium atoms much like a glass mirror reflects a beam of light.
Just as the energy of a tennis ball is absorbed by the motion of a tennis racquet, the motion of the paddle absorbed the energy from the helium beam. The beam was slowed to 560 miles per hour, less than one-eighth the normal velocity of helium.
Raizen's slow beam work is important to understanding the interaction between an atom and a surface, a fundamental aspect of physics that has been investigated since the pioneering work of Otto Stern in 1930. Scientists can bounce atoms off a surface and observe the scattered atoms to learn about the properties of the atoms and the surface.
To date, the main disadvantage of using helium to probe surfaces has been that it typically moves very quickly, nearly 4,500 miles per hour at room temperature. When helium hits a surface at a very high velocity, it tends to scatter in many directions, making it more difficult to observe the atoms after impact and limiting its practical use as a probe.
Slow beams could someday be used in advanced navigation systems with gyroscopes, like those found in airplanes, submarines, space probes and the International Space Station. Gyroscopes allow an object to maintain its orientation or balance, even in outer space.
A gyroscope system based on atoms would have a much higher sensitivity than gyroscope systems that use lasers, said Raizen.
He said that the atomic paddle method could be used in the future to produce even slower helium atoms and ultimately to stop and trap them.
University of Texas at Austin
Helium Current Events and Helium News RSSProton's party pals may alter its internal structure
A recent experiment at the Department of Energy's Thomas Jefferson National Accelerator Facility has found that a proton's nearest neighbors in the nucleus of the atom may modify the proton's internal structure.
A bubbling ball of gas
The Sun is a bubbling mass. Packages of gas rise and sink, lending the sun its grainy surface structure, its granulation. Dark spots appear and disappear, clouds of matter dart up - and behind the whole thing are the magnetic fields, the engines of it all.
Carbon atmosphere discovered on neutron star
Evidence for a thin veil of carbon has been found on the neutron star in the Cassiopeia A supernova remnant. This discovery, made with NASA's Chandra X-ray Observatory, resolves a ten-year mystery surrounding this object.
High-performance plasmas may make reliable, efficient fusion power a reality
In the quest to produce nuclear fusion energy, researchers from the DIII-D National Fusion Facility have recently confirmed long-standing theoretical predictions that performance, efficiency and reliability are simultaneously obtained in tokamaks, the leading magnetic confinement fusion device, operating at their performance limits.
Dirty stars make good solar system hosts
Some stars are lonely behemoths, with no surrounding planets or asteroids, while others sport a skirt of attendant planetary bodies. New research published this week in The Astrophysical Journal Letters explains why the composition of the stars often indicates whether their light shines into deep space, or whether a small fraction shines onto orbiting planets.
Superheavy Element 114 Confirmed: A Stepping Stone to the Island of Stability
Scientists at the U.S. Department of Energy's Lawrence Berkeley National Laboratory have been able to confirm the production of the superheavy element 114, ten years after a group in Russia, at the Joint Institute for Nuclear Research in Dubna, first claimed to have made it.
MSU researcher adds to knowledge of how early stars, galaxies formed
Research by a Michigan State University scientist sheds new light on how stars and galaxies were formed back in the early days of the universe - some 13 billion years ago.
Researchers putting a freeze on oscillator vibrations
University of Oregon physicists have successfully landed a one-two punch on a tiny glass sphere, refrigerating it in liquid helium and then dosing its perimeter with a laser beam, to bring its naturally occurring mechanical vibrations to a near standstill.
Study gives clues to increasing X-rays' power
Three-dimensional, real-time X-ray images of patients could be closer to reality because of research recently completed by scientists at the University of Nebraska-Lincoln and a pair of Russian institutes.
Caltech visiting associate champions the study of solar eclipses in the modern era
Championing the modern-day use of solar eclipses to solve a set of modern problems is the goal of a review article written by Jay Pasachoff, visiting associate at the California Institute of Technology (Caltech) and Field Memorial Professor of Astronomy at Williams College.
More Helium Current Events and Helium News Articles
 |
Helium Tank Kit by Factory Card and Party Outlet Make your balloons float with helium! This handy helium tank is perfect for birthday parties, celebrations, weddings, school dances and more! The helium tank is lighweight and disposable. It features an easy to use nozzle to fill up balloons in a snap and handles to carry easily. Helium Tank holds approximately 14.9 cubic feet of helium and includes 50 latex balloons measuring 9" each in assorted colors.This helium tank can fill approximately 50 latex balloons measuring 9"or 20 latex balloons measuring 12" or 20 mylar balloons measuring 18". This item can only be shipped via Standard Ground shipping only. Cannot ship to Alaska and Hawaii. Price includes a $20 shipping surcharge. Tank is Non-returnable. |
 |
Disposable Helium Tank by Giant Party Store The easy opening valve and filler tube makes inflating balloons a snap. Helium is non-toxic, non-flammable and non-explosive. This 12 lb. tank holds 15 cubic feet of helium. Please note: Tank is recyclable, but not refillable. Due to DOT regulations helium tank cannot be shipped by air service. |
 |
Helium (Understanding the Elements of the Periodic Table) by Heather Hasan (Author) |
 |
The Dirt of Luck by Helium |
 |
Helium Balloon Time Kit By Woodstock Outlet by Worthington Cylinder Corp Balloon Time, 8.9 CUFT, Helium Kit, Consists Of: 1Each 8.9 CUFT Helium Tank, 30 Count 9" Assorted Balloons & Ribbon. |
 |
Disposable Helium Tank by BuyCostumes Includes one disposable helium-filled tank that comes with an easy-fill nozzle and easy to carry handles. Tank can fill approximately 20 - 12" latex balloons with a float time of 5-7 hours or approximately 20 - 18" Foil Balloons with a float time of approximately 4 days. Caution: contents are under pressure. Keep out of reach of children. Use this product only in well-ventilated areas. Do not fill this tank with any materials and do not store in damp areas. Keep tank away from heat, fire and sharp objects. This tank has a PSI of 260. Disposal instructions are included in the packaging. |
 |
The Magic City by Helium The second full album from this Boston-based trio is a rich, complex effort that keeps you coming back again and again, and it grows with every listen. Guitarist, vocalist, and songwriter Mary Timony has a wealth of cool influences--from Krautrock and the Cars to the Velvets and vintage Pink Floyd--but all of them are filtered through her own distinctive personality, and married with lyrics that take an unromantic but nonetheless inspiring view of life in the modern world. Produced by Mitch Easter (Let's Active, R.E.M., Pavement), this is a lush, multi-layered disc full of such enticing touches as funky analog synths, cool overdriven guitar tones, Eastern percussion, and strings. In fact, the sound is almost as seductive as Timony herself. --Jim Derogatis |
 |
The Universe in a Helium Droplet (The International Series of Monographs on Physics) by Grigory E. Volovik (Author) There are fundamental relations between three vast areas of physics: particle physics, cosmology and condensed matter physics. The fundamental links between the first two areas, in other words, between micro-and macro-worlds, have been well established. There is a unified system of laws governing the scales from subatomic particles to the Cosmos and this principle is widely exploited in the description of the physics of the early Universe. The main goal of this book is to establish and define the connection of these two fields with condensed matter physics. According to the modern view, elementary particles (electrons, neutrinos, quarks, etc.) are excitations of a more fundamental medium called the quantum vacuum. This is the new 'aether' of the 21st Century. Electromagnetism,... |
 |
Megatech Mega-Blimp Combo with Lights Airship 1 and UFO by Megatech The Megatech RC Blimp / UFO Combo offers a new, exciting dimension in indoor radio control flying fun! This lighter-than-air vehicle combo comes complete with a transmitter, triple-turbofan system and both air cylinders. You can use either the 48in long Airship 1 Zero Gravity MegaBlimp air bags or the 33in diameter Area 51 MegaU.F.O. (Unbelievably Fun Object) air bags. Both air bags have special coatings with colorful designs on the anti-gravity lifting cylinder. They can be conveniently filled with helium at any florist shop or party store. Propelled by triple-turbofan electric propulsion systems, the Airship 1/Area 51 can be flown forward or backward with complete control over airspeed, up, down and can turn sharply in any direction including 360 degree spins. Glowing anti-gravity... |
 |
FuelBelt Helium 4 Bottle Belt, Blue, Large by Fuel Belt As the number one hydration belt in the world, Helium has been put to the test at some of the toughest endurance events around. Craig Alexander placed first overall at the 2008 Ironman World Championship in Kona, Hawaii with his Helium 2-Bottle Belt. In fact, four out of the top five men used Helium, which says a lot about how the design performs under extreme conditions. You won’t find a more proven hydration belt than Helium. |
| © 2009 BrightSurf.com |