السلام عليكم ورحمة الله وبركاته.أهلا وسهلا بك زائرنا الكريم،
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السلام عليكم ورحمة الله وبركاته.أهلا وسهلا بك زائرنا الكريم،
منتديات فيزياء لكل الأجيال ترحب بكم عند تسجيلكم المرجوا منكم التوجه الى ايمايلكم لتفعيل حسابكم بالضغط على الرابط الموجود بالرسالة التي سيتم ارسالها اليكم من المنتدى إذا رغبت بالمشاركة في المنتدى، أما إذا رغبت بقراءة المواضيع والإطلاع فتفضل بزيارة القسم الذي ترغب أدناه.
هل تريد التفاعل مع هذه المساهمة؟ كل ما عليك هو إنشاء حساب جديد ببضع خطوات أو تسجيل الدخول للمتابعة.

The Higgs bosn

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The Higgs bosn Empty The Higgs bosn

مُساهمة من طرف ILYAS الثلاثاء فبراير 22, 2011 8:19 am

When you get on the scale in the morning, you may be hoping that it registers a smaller number than the day before -- you may be hoping that you've lost weight. It's the quantity of mass in you, plus the force of gravity, that determines your weight. But what determines your mass?

That's one of the most-asked, most-hotly pursued questions in physics today. Many of the experiments circulating in the world's particle accelerators are looking into the mechanism that gives rise to mass. Scientists at CERN, as well as at Fermilab in Illinois, are hoping to find what they call the "Higgs boson." Higgs, they believe, is a particle, or set of particles, that might give others mass.

The idea of one particle giving another mass is a bit counter-intuitive... Isn't mass an inherent characteristic of matter? If not, how can one entity impart mass on all the others by simply floating by and interacting with them?
An oft-cited analogy describes it well: Imagine you're at a Hollywood party. The crowd is rather thick, and evenly distributed around the room, chatting. When the big star arrives, the people nearest the door gather around her. As she moves through the party, she attracts the people closest to her, and those she moves away from return to their other conversations. By gathering a fawning cluster of people around her, she's gained momentum, an indication of mass. She's harder to slow down than she would be without the crowd. Once she's stopped, it's harder to get her going again.
This clustering effect is the Higgs mechanism, postulated by British physicist Peter Higgs in the 1960s. The theory hypothesizes that a sort of lattice, referred to as the Higgs field, fills the universe. This is something like an electromagnetic field, in that it affects the particles that move through it, but it is also related to the physics of solid materials. Scientists know that when an electron passes through a positively charged crystal lattice of atoms (a solid), the electron's mass can increase as much as 40 times. The same might be true in the Higgs field: a particle moving through it creates a little bit of distortion -- like the crowd around the star at the party -- and that lends mass to the particle.
The question of mass has been an especially puzzling one, and has left the Higgs boson as the single missing piece of the Standard Model yet to be spotted. The Standard Model describes three of nature's four forces: electromagnetism and the strong and weak nuclear forces. Electromagnetism has been fairly well understood for many decades. Recently, physicists have learned much more about the strong force, which binds the elements of atomic nuclei together, and the weak force, which governs radioactivity and hydrogen fusion (which generates the sun's energy).
Electromagnetism describes how particles interact with photons, tiny packets of electromagnetic radiation. In a similar way, the weak force describes how two other entities, the W and Z particles, interact with electrons, quarks, neutrinos and others. There is one very important difference between these two interactions: photons have no mass, while the masses of W and Z are huge. In fact, they are some of the most massive particles known.

The first inclination is to assume that W and Z simply exist and interact with other elemental particles. But for mathematical reasons, the giant masses of W and Z raise inconsistencies in the Standard Model. To address this, physicists postulate that there must be at least one other particle -- the Higgs boson.

The simplest theories predict only one boson, but others say there might be several. In fact, the search for the Higgs particle(s) is some of the most exciting research happening, because it could lead to completely new discoveries in particle physics. Some theorists say it could bring to light entirely new types of strong interactions, and others believe research will reveal a new fundamental physical symmetry called "supersymmetry."
First, though, scientists want to determine whether the Higgs boson exists. The search has been on for over ten years, both at CERN's Large Electron Positron Collider (LEP) in Geneva and at Fermilab in Illinois. To look for the particle, researchers must smash other particles together at very high speeds. If the energy from that collision is high enough, it is converted into smaller bits of matter -- particles -- one of which could be a Higgs boson. The Higgs will only last for a small fraction of a second, and then decay into other particles. So in order to tell whether the Higgs appeared in the collision, researchers look for evidence of what it would have decayed into.

In August 2000, physicists working at CERN's LEP saw traces of particles that might fit the right pattern, but the evidence is still inconclusive. LEP was closed down in the beginning of November, 2000, but the search continues at Fermilab in Illinois, and will pick up again at CERN when the LHC (Large Hadron Collider) begins experiments in 2005.


The Higgs bosn Aleph_higgs


CERN scientists were unsure whether these events recorded by the ALEPH detector indicated the presence of a Higgs boson. Check out the links listed below for the latest information on the search for the Higgs Boson.

The Higgs bosn Aleph_higgs

Scientists at CERN use the enormous ALEPH detector in their search for the Higgs particle.
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الاوسمة : The Higgs bosn Medal_003
عدد المساهمات : 406
نقاط : 1190
تاريخ التسجيل : 22/10/2010
الموقع : https://physicsgeneration.superforum.fr

https://physicsgeneration.superforum.fr

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