Free Republic
Browse · Search
News/Activism
Topics · Post Article

Skip to comments.

Physicists Find Tiny Particle With No Charge, Very Low Mass And Sub-nanosecond Lifetime
ScienceDaily ^ | December 7, 2006

Posted on 12/07/2006 6:00:02 PM PST by annie laurie

After decades of intensive effort by both experimental and theoretical physicists worldwide, a tiny particle with no charge, a very low mass and a lifetime much shorter than a nanosecond, dubbed the "axion," has now been detected by the University at Buffalo physicist who first suggested its existence in a little-read paper as early as 1974.

The finding caps nearly three decades of research both by Piyare Jain, Ph.D., UB professor emeritus in the Department of Physics and lead investigator on the research, who works independently -- an anomaly in the field -- and by large groups of well-funded physicists who have, for three decades, unsuccessfully sought the recreation and detection of axions in the laboratory, using high-energy particle accelerators.

The paper, posted online in the British Journal of Physics G: Nuclear and Particle Physics, will be published in the January 2007 issue.

Results first were presented during a two-day symposium held in October at UB that celebrated Jain's 50-year career in the physics department in the College of Arts and Sciences.

During that symposium, the world-renowned and Nobel Prize-winning scientists in attendance expressed astonishment and delight that the axion finally might have been found.

The axion has been seen as critical to the Standard Model of Physics and is believed to be a component of much of the dark matter in the universe.

"These results show that we have detected axions, part of a family of particles that likely also includes the very heavy Higgs-Boson particle, which at present is being sought after at different laboratories," said Jain.

The story of the search for the axion particle in high-energy physics -- not to be confused with the search by cosmologists and astrophysicists for axions produced by the sun -- reads almost like a novel, with veritable armies of physicists committing many years of research and passion to its discovery starting in the 1970s.

In 1977, theoretical physicists predicted that there should exist a particle with characteristics very similar to those described in Jain's papers; in that publication, the term "axion" was coined. After that theoretical work, there was a mushrooming of papers from both theoretical and experimental physicists all chasing the axion using low-, medium- and high-energy accelerator beams from different laboratories worldwide.

But when it proved to be too elusive, many in the physics community then abandoned the search in the 1990s, based on puzzling evidence that perhaps this tantalizing particle didn't exist after all. Some groups flatly denied its existence and began referring to it as a "phantom."

Jain's initial interest in the elusive particles originated with work he began publishing in 1974 in Physical Review Letters and other journals that demonstrated evidence for particles with very low mass and very short lifetimes during particle accelerator experiments he conducted at Fermilab and Brookhaven National Laboratory.

At the time, Jain's papers elicited little interest from other physicists.

"This particle was there in my original paper in 1974," he said. "The experiment gave a hint that these particles existed but did not generate sufficient statistics to prove it. I knew I had to wait until a heavy ion beam at very high energy was available at a new accelerator."

As recently as 1999, a project called the CERES experiment at CERN in Geneva again focused on attempting to detect the axion, but that project also was unsuccessful.

The problem, according to Jain, was with their detector, which was electronic, the standard used in high-energy physics experiments today.

"They didn't know how to handle the detector for short-lived particles," Jain said. "I knew that for this very short-lived particle -- 10 to the power minus 13 seconds -- the detector must be placed very near the interaction point where the collision between the projectile beam and the target takes place so that the produced particle doesn't run away too far; if it does, it will decay quickly and it will be completely missed. That is what happened in most of the unsuccessful experiments."

Instead, Jain used a visual detector, made of three-dimensional photographic emulsions, which act as both target and detector and that therefore can detect very short-lived particles, such as the axion. However, use of such a detector is so specialized that to be successful, it requires intensive training and experience.

In the 1950s, Jain was trained to use this type of detector by its developer, the Nobel laureate, British physicist Cecil F. Powell. Jain has used it throughout his career to successfully detect other exotic phenomena, such as the charm particle, the anomalon, the quark-gluon plasma and the nuclear collective flow. In Jain's successful experiment, the axions were produced under extreme conditions of high temperature and high pressure, using a heavy ion lead beam with a total energy of 25 trillion electron volts at CERN in Geneva.

His experiments generated 1,220 electron pairs with identified vertices, the origin of each pair. They peaked at a distance of just 200-300 microns from the interaction point where the collisions take place in the emulsion.

"Only at that very short distance did I find the peak signal of this very-low-mass, short-lived particle with a neutral charge," he said.

After they are produced, axions rapidly decay into two electron pairs, the electron and the positron, he explained.

"We identified each vertex for each electron pair and we would not accept any electron pair unless we knew its vertex," he said. "There was a congestion of all kinds of low mass particles, including axions, near the detector. The background has to be filtered out from this congestion in order to obtain the signal of the axion."

Jain's co-author on the paper is Gurmukh Singh, then a post-doctoral researcher at UB and now a visiting assistant professor in the Department of Computer and Information Sciences at the State University of New York at Fredonia.

During Jain's long and illustrious career at UB, he published 175 scientific papers on a wide variety of physics topics, ranging from cosmic ray research performed on balloon flights to National Institutes of Health-funded studies on bone tissue to find more effective cancer therapies.

"After half a century as a scientist at UB, I find that with the discovery of this axion, my mission is complete," he concluded.


TOPICS: Miscellaneous
KEYWORDS: axion; buffalo; darkmatter; higgsboson; particle; physics; science; universityatbuffalo
Navigation: use the links below to view more comments.
first 1-2021-4041-6061-8081-90 next last

1 posted on 12/07/2006 6:00:07 PM PST by annie laurie
[ Post Reply | Private Reply | View Replies]

To: AntiGuv

Ping


2 posted on 12/07/2006 6:01:31 PM PST by annie laurie (All that is gold does not glitter, not all those who wander are lost)
[ Post Reply | Private Reply | To 1 | View Replies]

To: annie laurie

No mass, low charge, short duration? Sounds like a Episcopalian service.


3 posted on 12/07/2006 6:02:41 PM PST by Defiant (Obama as President would make us an Obama Nation.)
[ Post Reply | Private Reply | To 1 | View Replies]

To: annie laurie

Oh I'd like to have a look at one of those.


4 posted on 12/07/2006 6:04:54 PM PST by AZRepublican ("The degree in which a measure is necessary can never be a test of the legal right to adopt it.")
[ Post Reply | Private Reply | To 1 | View Replies]

Comment #5 Removed by Moderator

To: annie laurie

tiny particle with no charge, a very low mass and a lifetime much shorter than a nanosecond

A liberal idea. Hillary Clinton's conscience. Iraq surrender group proposal.

Join in!


6 posted on 12/07/2006 6:06:01 PM PST by saganite (Billions and billions and billions-------and that's just the NASA budget!)
[ Post Reply | Private Reply | To 1 | View Replies]

To: annie laurie

So no charge, no mass and no lifetime = sounds to me as if does not exist.


7 posted on 12/07/2006 6:07:14 PM PST by nomorelurker (wetraginhell)
[ Post Reply | Private Reply | To 1 | View Replies]

To: saganite; CowPalace1964; Defiant

Sounds like it's going to be a fun thread ;-)


8 posted on 12/07/2006 6:07:30 PM PST by annie laurie (All that is gold does not glitter, not all those who wander are lost)
[ Post Reply | Private Reply | To 6 | View Replies]

To: annie laurie
Slashdot has this covered.

Their consensus is that it's seriously flawed, and that the whole thing is wrong.

9 posted on 12/07/2006 6:09:12 PM PST by SteveMcKing
[ Post Reply | Private Reply | To 1 | View Replies]

To: Defiant

tooooo funny


10 posted on 12/07/2006 6:13:08 PM PST by Kimmers
[ Post Reply | Private Reply | To 3 | View Replies]

To: annie laurie

I'm suspicious of the fact that the guy who discovered the particle just happened to be the same guy who published a paper predicting it's existence. 30 years ago. The author is getting old and wants verification - not become a little known footnote in an old physics journal.


11 posted on 12/07/2006 6:13:27 PM PST by muleskinner
[ Post Reply | Private Reply | To 1 | View Replies]

To: Physicist

Ping


12 posted on 12/07/2006 6:14:40 PM PST by eddie willers
[ Post Reply | Private Reply | To 1 | View Replies]

To: annie laurie

Alright. No puns from me, yet...
Let me see.
We have a standard theory.
However, the theory doesn't work in tests because we need more mass to account for dark matter, and we need the dark matter, otherwise our theory is wrong.
Therefore, we need a particle that can account for what's wrong.
So we run a lot of tests, and we select what we want, and ignore what we don't want, and voila! What's left is a new particle to add to all those other particles we had to 'find' to make the theory work.
I think I understand.


13 posted on 12/07/2006 6:16:01 PM PST by gb63
[ Post Reply | Private Reply | To 1 | View Replies]

To: muleskinner

Quite possibly.


14 posted on 12/07/2006 6:16:31 PM PST by annie laurie (All that is gold does not glitter, not all those who wander are lost)
[ Post Reply | Private Reply | To 11 | View Replies]

To: annie laurie

What is the weight they are claiming for this particle?


15 posted on 12/07/2006 6:16:45 PM PST by kinoxi
[ Post Reply | Private Reply | To 1 | View Replies]

To: annie laurie
Physicists Find Tiny Particle With No Charge, Very Low Mass And Sub-nanosecond Lifetime

I knew about this for years. It's called a married woman's sex drive.

16 posted on 12/07/2006 6:17:59 PM PST by Tinian
[ Post Reply | Private Reply | To 1 | View Replies]

To: annie laurie

BFLR = Bump For Later Reading


17 posted on 12/07/2006 6:19:35 PM PST by Kevmo (Darn, if only I had signed up 4 days earlier, I'd have a 3-digit Freeper #)
[ Post Reply | Private Reply | To 1 | View Replies]

To: annie laurie

I bet those little particles have a strong urge to do something harmful or shocking. They just don't have the time.


18 posted on 12/07/2006 6:20:50 PM PST by Jaysun (Let's not ruin this moment with words.)
[ Post Reply | Private Reply | To 1 | View Replies]

To: annie laurie

"No mass, low charge, short duration?"

Sounds like an X-husband to me....


19 posted on 12/07/2006 6:22:34 PM PST by Kimmers
[ Post Reply | Private Reply | To 1 | View Replies]

To: annie laurie

If physicists weren't obsessed with with the rediculously large or the rediculously small so much of the time, more people might show some interest in physics.


20 posted on 12/07/2006 6:22:56 PM PST by dr_who_2
[ Post Reply | Private Reply | To 1 | View Replies]


Navigation: use the links below to view more comments.
first 1-2021-4041-6061-8081-90 next last

Disclaimer: Opinions posted on Free Republic are those of the individual posters and do not necessarily represent the opinion of Free Republic or its management. All materials posted herein are protected by copyright law and the exemption for fair use of copyrighted works.

Free Republic
Browse · Search
News/Activism
Topics · Post Article

FreeRepublic, LLC, PO BOX 9771, FRESNO, CA 93794
FreeRepublic.com is powered by software copyright 2000-2008 John Robinson