Ring around the proton.

A high-intensity laser pulse can blast an atom's electron to orbital velocities near the speed of light. Under such extreme conditions, electrons exhibit a variety of bizarre, relativistic rel·a·tiv·is·tic
adj.
1. Of or relating to relativism.

2. Physics
a. Of, relating to, or resulting from speeds approaching the speed of light: relativistic increase in mass. effects.

Now, researchers propose that the combination of light from a modest carbon dioxide laser The carbon dioxide laser (CO₂ laser) was one of the earliest gas lasers to be developed (invented by Kumar Patel of Bell Labs in 1964^[1]), and is still one of the most useful. and a strong magnetic field would generate the same relativistic electron effects as high-end lasers, but they would do so much more economically. Physicist Rainer Grobe and his colleagues at Illinois State University ISU is recognized in the prestigious US News rankings as a "National University", that is, a university which grants a variety of doctoral degrees and strongly emphasizes research. in Normal describe their scheme in the April 10 PHYSICAL REVIEW LETTERS Physical Review Letters is one of the most prestigious journals in physics.^[1] Since 1958, it has been published by the American Physical Society as an outgrowth of The Physical Review. .

The high-intensity laser pulses normally required to push electrons to high orbital speeds can also readily eject them from atoms, limiting experiments designed to probe relativistic effects. Grobe and his team reasoned that a strong magnetic field would help keep an electron from flying away. No matter how far it might stray from the nucleus, the magnetic field would keep the electron on a curved path.

The researchers used computer simulations to predict how a hydrogen atom would respond to such laser-magnet combinations. They unexpectedly discovered that, under certain conditions, a relativistic electron could behave like a ring-shaped electron cloud

This article is about the structure of an atom. For the particle accelerator phenomenon, see Electron-Cloud Effect.

Electron cloud is a term used, if not originally coined, by the Nobel Prize laureate and acclaimed educator Richard Feynman in The spinning around the nucleus.

COPYRIGHT 2000 Science Service, Inc.
No portion of this article can be reproduced without the express written permission from the copyright holder.

Reader Opinion

Article Details
Printer friendly Cite/link Email Feedback
Title Annotation:	laser research
Author:	I.P.
Publication:	Science News
Article Type:	Brief Article
Date:	Apr 29, 2000
Words:	192
Previous Article:	Writing with warm atoms.(atom positioning research)(Brief Article)
Next Article:	Letters.
Topics:	Electrons Research Lasers Research

Related Articles
Adult amphibian in Antilles amber. (40-million year old frog)
Antimatter, antichemistry.
Semiconductor laser is chip off new block.
Hydrogen reunion mediated by light. (lasers used to reunite electrons and protons to form hydrogen, a step toward creating antimatter)
Ion collider, doomsday fears rev up.(Relativistic heavy Ion Collider at Brookhaven National Laboratory)(Brief Article)
Pushy lasers sweep into ion race.(Brief Article)
Lasers nudge into nuclear medicine.(ultrashort-pulse lasers make radioactive isotopes)(Brief Article)
Accelerators load some new ammo: Crystals.(Brief Article)
Wake up, little surfers: riding waves toward tabletop accelerators.
Smashing success: accelerator gets cool upgrade.(particle accelerators )