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Universe_Man Apr25-06 05:26 AM

Detection of Elementary Particles
 
By what means do scientists detect the presence of elementary particles? How do we know what we are looking at through these means of detection?

Thanks

BenLillie Apr25-06 12:46 PM

A good place to start for an introduction to collider detectors is at the particle adventure:

http://particleadventure.org/particl...rn_detect.html

That section gives a very introductory overview of how collider experments work and how the data is interpreted.

Astronuc Apr27-06 06:41 AM

Quote:

Quote by Universe_Man
By what means do scientists detect the presence of elementary particles? How do we know what we are looking at through these means of detection?

To detect means to establish a situation (an experiment) in which the 'elementary particle' in question interacts with the system (or particles in the system), or as BenLillie indicated, fundamental particles (electrons) or composites (e.g. protons, composites of quarks) can be collided. The result of that interaction is 'detected'.

The elementary particles are the 'smallest' individual particles, e.g. leptons like the neutrinos and electron (positron), quarks (which make up mesons and baryons), and then others like gluons, bosons, gravitons, . . . . The latter group is much harder to detect, and must be inferred indirectly from the particles that are detected.

From the link provided by BenLillie -
Quote:

The Standard Model answers many of the questions about the structure and stability of matter with its six types of quarks, six types of leptons, and four forces. But the Standard Model is not complete; there are still many unanswered questions.

vanesch Apr27-06 07:22 AM

Quote:

Quote by Universe_Man
By what means do scientists detect the presence of elementary particles? How do we know what we are looking at through these means of detection?

Straight into my profession.
A good place to start, apart from the good, already mentionned link, is:
http://en.wikipedia.org/wiki/Particle_detector

There's a long list of different techniques to detect particles, all of which, by today, are electronic.

The basic principle of any particle detector today is the interaction of CHARGED particles with matter, which takes on two forms:
-excitation
-ionisation

Indeed, point charges which traverse matter at high speed cause these two phenomena to happen. Once these phenomena took place in matter, you still have to have a means of observing them. Excitation can give rise to light emission, in which case, you try to detect the light (and in the end, try to ionise matter one way or another, like a photocathode on a PM). In the end, you're after ionisation. Why ?
Because the application of an electric field lets you guide the hence obtained charges (ions but preferably electrons), and there is an effect which is often exploited: HIGH electric fields give rise to avalanches.
The electrons accelerate in the high electric field, and become ionizing charges in themselves. This has the potential of AMPLIFYING the original ionisation charge. In the end, you try to observe the movement of all these charges by placing electrodes somewhere: moving charges induce CURRENTS in nearby electrodes.

Almost all particle detectors operate in one way or another on this principle: the initial charged particle ionises matter, this gives (often) rise to SEVERAL electrical charges, which are then guided and accelerated by an electrostatic field, which can give rise to secondary ionisations and which ultimately give rise to moving charges inducing electrical currents in electrodes.

Amplifiers connected to these electrodes then amplify these (tiny) currents, and this goes into a data acquisition system.

A few examples:

*) gas detectors (the old working horse). Fast charges create little clouds of ions and electrons in the gas. These drift along the lines of an electrostatic field. Sometimes, this is enough: the movement of these charges induces currents in electrodes: we have an ionisation chamber.
Sometimes, the E-field is very strong, and we get gas amplification (the initial electron becomes itself an ionising particle, etc..). We have now proportional detectors, or streamer tubes, or geiger counters
Wires or strips or other electrodes configure the E-field and serve as induction electrodes.

*) photomultipliers: the photon liberates an electron of the photocathode which is then accelerated in an E-field in vacuum, hitting a "dynode" where several electrons are liberated, to the next dynode etc... until a very large number of electrons arrive at an anode: their movement induces a current pulse in the anode.

*) silicon detectors: very similar to gas detectors, but the medium is now silicon, and the charged particles are electrons and holes.

Now, what happens if we want to observe *neutral* particles ? Well, we need a fundamental interaction with the neutral particle to generate light, or charged particles. For instance, gamma radiation needs to interact with matter (photo-electric effect, compton effect, or pair production) which liberates electrons. Fast neutrons can hit elastically a nucleus, which becomes a charged particle (the fast-moving nucleus).
Slow neutrons need to interact through a nuclear interaction with matter (for instance, fission in U-235).
Neutrinos are harder.

hellfire Apr27-06 08:00 AM

Quote:

Quote by vanesch
*) gas detectors (the old working horse)...

I have read somewhere that the principle of bubble chambers is used for "superheated droplet detectors" that are used to detect hypotetical WIMPs. Can you say something about these detectors or do you know some informative page about it? Thanks.

Astronuc Apr27-06 08:05 AM

Quote:

Quote by hellfire
I have read somewhere that the principle of bubble chambers is used for "superheated droplet detectors" that are used to detect hypotetical WIMPs. Can you say something about these detectors or do you know some informative page about it? Thanks.

I believe the principal of bubble chambers is similar to that of cloud chambers which use "supersaturation", such that the vapor condenses to liquid along the paths of the particles. In the case of superheated liquid, the particles would increase the energy so the liquid phase is transformed to vapor along the path.

http://en.wikipedia.org/wiki/Bubble_chamber


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