New Subatomic Particle Discovered 46
Cyndi writes "A new subatomic particle has been discovered by researchers at Stanford. It seems to be "an unusual configuration of a charm quark and a strange anti-quark"."
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New Subatomic Particle Discovered
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Reality must take precedence over public relations, for Mother Nature cannot be fooled. -- R.P. Feynman
Naked charm!?! (Score:5, Funny)
From the article, it sounds as if this particle would exhibit naked charm (and naked (anti-)strange as well I assume). This seems astounding to me (at a quarter to five AM at least). Last I heard that sort of thing was on mother nature's short list of no-nos.
-- MarkusQ
Re:Naked charm!?! (Score:5, Informative)
Re:Naked charm!?! (Score:2, Interesting)
One question: How do they know they accidentally discovered it and that they did not accidentally invent it anew?
Thanks.
Re:Naked charm!?! (Score:2)
What's the difference? (Score:3, Informative)
We know we didn't 'invent' it because a c and an s_bar existed a long time before this guy. We j
Re:Naked charm!?! (Score:2)
Might be a little too early in the morning. This guy is just a resonance of D_s+, which...is made up of c & s_bar...Charmed particles have been around for a while now.
Duh. Thanks. I should learn not to try to think physics on my way back to bed from a diaper change. (Better yet: I shouldn't stop and check e-mail/slashdot either.)
Hey, at least I wasn't coding in my sleep.
-- MarkusQ
What the Quark? (Score:5, Funny)
Could someone explain the who Anti-Quark, Naked Quark, Bio-Polar Quark, Spring Break Quark, and Got my head up my ass CIO Quark please?
Re:What the Quark? (Score:4, Funny)
Don't forget this one: (Score:5, Funny)
I kill me.
Re:What the Quark? (Score:2)
The Ferengi's alter egos.
That's not really an event (Score:4, Informative)
Now if they had discovered a new fundamental particle, or if that particle exhibited properties in contradiction with the current laws of particle physics (eg symmetry breaking), that would be worth posting...
Daniel
Re:That's not really an event (Score:2)
Daniel
importance is in the details (Score:5, Informative)
Re:importance is in the details (Score:3, Insightful)
The combination was not the surprise, but the missing mass is, which suggests that the theoretical calculation of the binding force is incorrect (though such calculation is often an approximation themself) This usually signals that some aspect of the theory on the force is wrong or that their is yet another particle that was undetected, thus robbing some mass away. (Neutrino was 'discovered' this way)
Well, sorta. In the case of the neutrino, conservation of energy and momentum gave you a solid expectati
2317 - ZEIT (the german word for time) (Score:1)
Must be LOVE! (Score:5, Funny)
Love makes strange bedfellows...
This force, unlike most others in nature, becomes stronger as the distance between the two quarks increases.
Absence makes the heart grow fonder...
They have discovered the LOVE particle!
Re:Must be LOVE! (Score:2)
Yes, and it's called a "gluon".
Quark is so overrated... (Score:5, Funny)
How long ... (Score:1)
Yup. Recycling old jokes ad nauseam.
Re:In related news... (Score:1)
Binding force gets stronger with distance? (Score:5, Interesting)
But what happens if you've only got one of them here, and the nearest other one is in a neighboring galaxy? Massive destruction? Infinite attraction? Or just enough attraction to get a geek a date?
Re:Binding force gets stronger with distance? (Score:2, Interesting)
No problem.
Re:Binding force gets stronger with distance? (Score:3, Informative)
This is a very simplistic response, but it'll have to do:
The situation you describe (two isolated/bare quarks or antiquarks, separated by a vast distance) can't really occur in the theory. It takes energy to separate the quarks/antiquarks in a subatomic particle; and because of the force getting stronger as the distance increases, it keeps taking more and more energy. As you separate the quarks, you're raising the potential energy of the system, just as if you were rolling a ball up the side of a bowl.
Re:Binding force gets stronger with distance? (Score:1)
But what if you could somehow prevent the formation of the new particles?
There is no mechanism in the theory to do that.
Perpetual motion, here I come... (Score:3, Interesting)
For the physicists out there, if this forces is true, then what stops somone from developing a device based on it and, say, some electromagetic force (or just plain old gravity) where by each side pushes and pulls in balance so that they actually generate energy.
Like for eample, have a "Ds" particle bolted to the top of a room, and drop a second "Ds" particle directly from it, it would be pulled by gravity until the point where the strange inverted force gets strong enough to pull it back up. As it goes back up, that force diminshes, and then gravity takes over again, etc.
Re:Perpetual motion, here I come... (Score:3, Informative)
Re:Perpetual motion, here I come... (Score:1)
You ***CAN*** do this....
Take a mass and hang it from a spring. This will represent "The (strong) Force". Gravity, as always, will work. You then pull the mass to the floor. The spring pulls it up. When it reaches the ceiling, gravity will pull it down.
All you have to do to make this into perpetual motion is to suck all of the gas from the room, and find a new type of spring with no internal friction losses. It will bounce forever!
Now, getting energy from such a system would cause it to slow dow
Ds? What the..? (Score:1)
I suggest it be renamed the "code-red" particle (as i am drinking that now); the "twinkie" particle; or perhaps even the "Jugs, the magazine for men" particle...
The Starbucks Particle (Score:2, Insightful)